From a990de90fe41456a23e58bd087d2f107d321f3a1 Mon Sep 17 00:00:00 2001 From: Valentin Popov Date: Fri, 19 Jul 2024 16:37:58 +0400 Subject: Deleted vendor folder --- vendor/rayon/src/iter/collect/consumer.rs | 186 --------------- vendor/rayon/src/iter/collect/mod.rs | 116 ---------- vendor/rayon/src/iter/collect/test.rs | 373 ------------------------------ 3 files changed, 675 deletions(-) delete mode 100644 vendor/rayon/src/iter/collect/consumer.rs delete mode 100644 vendor/rayon/src/iter/collect/mod.rs delete mode 100644 vendor/rayon/src/iter/collect/test.rs (limited to 'vendor/rayon/src/iter/collect') diff --git a/vendor/rayon/src/iter/collect/consumer.rs b/vendor/rayon/src/iter/collect/consumer.rs deleted file mode 100644 index acd67df..0000000 --- a/vendor/rayon/src/iter/collect/consumer.rs +++ /dev/null @@ -1,186 +0,0 @@ -use super::super::plumbing::*; -use crate::SendPtr; -use std::marker::PhantomData; -use std::ptr; -use std::slice; - -pub(super) struct CollectConsumer<'c, T: Send> { - /// See `CollectResult` for explanation of why this is not a slice - start: SendPtr, - len: usize, - marker: PhantomData<&'c mut T>, -} - -impl CollectConsumer<'_, T> { - /// Create a collector for `len` items in the unused capacity of the vector. - pub(super) fn appender(vec: &mut Vec, len: usize) -> CollectConsumer<'_, T> { - let start = vec.len(); - assert!(vec.capacity() - start >= len); - - // SAFETY: We already made sure to have the additional space allocated. - // The pointer is derived from `Vec` directly, not through a `Deref`, - // so it has provenance over the whole allocation. - unsafe { CollectConsumer::new(vec.as_mut_ptr().add(start), len) } - } -} - -impl<'c, T: Send + 'c> CollectConsumer<'c, T> { - /// The target memory is considered uninitialized, and will be - /// overwritten without reading or dropping existing values. - unsafe fn new(start: *mut T, len: usize) -> Self { - CollectConsumer { - start: SendPtr(start), - len, - marker: PhantomData, - } - } -} - -/// CollectResult represents an initialized part of the target slice. -/// -/// This is a proxy owner of the elements in the slice; when it drops, -/// the elements will be dropped, unless its ownership is released before then. -#[must_use] -pub(super) struct CollectResult<'c, T> { - /// This pointer and length has the same representation as a slice, - /// but retains the provenance of the entire array so that we can merge - /// these regions together in `CollectReducer`. - start: SendPtr, - total_len: usize, - /// The current initialized length after `start` - initialized_len: usize, - /// Lifetime invariance guarantees that the data flows from consumer to result, - /// especially for the `scope_fn` callback in `Collect::with_consumer`. - invariant_lifetime: PhantomData<&'c mut &'c mut [T]>, -} - -unsafe impl<'c, T> Send for CollectResult<'c, T> where T: Send {} - -impl<'c, T> CollectResult<'c, T> { - /// The current length of the collect result - pub(super) fn len(&self) -> usize { - self.initialized_len - } - - /// Release ownership of the slice of elements, and return the length - pub(super) fn release_ownership(mut self) -> usize { - let ret = self.initialized_len; - self.initialized_len = 0; - ret - } -} - -impl<'c, T> Drop for CollectResult<'c, T> { - fn drop(&mut self) { - // Drop the first `self.initialized_len` elements, which have been recorded - // to be initialized by the folder. - unsafe { - ptr::drop_in_place(slice::from_raw_parts_mut( - self.start.0, - self.initialized_len, - )); - } - } -} - -impl<'c, T: Send + 'c> Consumer for CollectConsumer<'c, T> { - type Folder = CollectResult<'c, T>; - type Reducer = CollectReducer; - type Result = CollectResult<'c, T>; - - fn split_at(self, index: usize) -> (Self, Self, CollectReducer) { - let CollectConsumer { start, len, .. } = self; - - // Produce new consumers. - // SAFETY: This assert checks that `index` is a valid offset for `start` - unsafe { - assert!(index <= len); - ( - CollectConsumer::new(start.0, index), - CollectConsumer::new(start.0.add(index), len - index), - CollectReducer, - ) - } - } - - fn into_folder(self) -> Self::Folder { - // Create a result/folder that consumes values and writes them - // into the region after start. The initial result has length 0. - CollectResult { - start: self.start, - total_len: self.len, - initialized_len: 0, - invariant_lifetime: PhantomData, - } - } - - fn full(&self) -> bool { - false - } -} - -impl<'c, T: Send + 'c> Folder for CollectResult<'c, T> { - type Result = Self; - - fn consume(mut self, item: T) -> Self { - assert!( - self.initialized_len < self.total_len, - "too many values pushed to consumer" - ); - - // SAFETY: The assert above is a bounds check for this write, and we - // avoid assignment here so we do not drop an uninitialized T. - unsafe { - // Write item and increase the initialized length - self.start.0.add(self.initialized_len).write(item); - self.initialized_len += 1; - } - - self - } - - fn complete(self) -> Self::Result { - // NB: We don't explicitly check that the local writes were complete, - // but Collect will assert the total result length in the end. - self - } - - fn full(&self) -> bool { - false - } -} - -/// Pretend to be unindexed for `special_collect_into_vec`, -/// but we should never actually get used that way... -impl<'c, T: Send + 'c> UnindexedConsumer for CollectConsumer<'c, T> { - fn split_off_left(&self) -> Self { - unreachable!("CollectConsumer must be indexed!") - } - fn to_reducer(&self) -> Self::Reducer { - CollectReducer - } -} - -/// CollectReducer combines adjacent chunks; the result must always -/// be contiguous so that it is one combined slice. -pub(super) struct CollectReducer; - -impl<'c, T> Reducer> for CollectReducer { - fn reduce( - self, - mut left: CollectResult<'c, T>, - right: CollectResult<'c, T>, - ) -> CollectResult<'c, T> { - // Merge if the CollectResults are adjacent and in left to right order - // else: drop the right piece now and total length will end up short in the end, - // when the correctness of the collected result is asserted. - unsafe { - let left_end = left.start.0.add(left.initialized_len); - if left_end == right.start.0 { - left.total_len += right.total_len; - left.initialized_len += right.release_ownership(); - } - left - } - } -} diff --git a/vendor/rayon/src/iter/collect/mod.rs b/vendor/rayon/src/iter/collect/mod.rs deleted file mode 100644 index 4044a68..0000000 --- a/vendor/rayon/src/iter/collect/mod.rs +++ /dev/null @@ -1,116 +0,0 @@ -use super::{IndexedParallelIterator, ParallelIterator}; - -mod consumer; -use self::consumer::CollectConsumer; -use self::consumer::CollectResult; -use super::unzip::unzip_indexed; - -mod test; - -/// Collects the results of the exact iterator into the specified vector. -/// -/// This is called by `IndexedParallelIterator::collect_into_vec`. -pub(super) fn collect_into_vec(pi: I, v: &mut Vec) -where - I: IndexedParallelIterator, - T: Send, -{ - v.truncate(0); // clear any old data - let len = pi.len(); - collect_with_consumer(v, len, |consumer| pi.drive(consumer)); -} - -/// Collects the results of the iterator into the specified vector. -/// -/// Technically, this only works for `IndexedParallelIterator`, but we're faking a -/// bit of specialization here until Rust can do that natively. Callers are -/// using `opt_len` to find the length before calling this, and only exact -/// iterators will return anything but `None` there. -/// -/// Since the type system doesn't understand that contract, we have to allow -/// *any* `ParallelIterator` here, and `CollectConsumer` has to also implement -/// `UnindexedConsumer`. That implementation panics `unreachable!` in case -/// there's a bug where we actually do try to use this unindexed. -pub(super) fn special_extend(pi: I, len: usize, v: &mut Vec) -where - I: ParallelIterator, - T: Send, -{ - collect_with_consumer(v, len, |consumer| pi.drive_unindexed(consumer)); -} - -/// Unzips the results of the exact iterator into the specified vectors. -/// -/// This is called by `IndexedParallelIterator::unzip_into_vecs`. -pub(super) fn unzip_into_vecs(pi: I, left: &mut Vec, right: &mut Vec) -where - I: IndexedParallelIterator, - A: Send, - B: Send, -{ - // clear any old data - left.truncate(0); - right.truncate(0); - - let len = pi.len(); - collect_with_consumer(right, len, |right_consumer| { - let mut right_result = None; - collect_with_consumer(left, len, |left_consumer| { - let (left_r, right_r) = unzip_indexed(pi, left_consumer, right_consumer); - right_result = Some(right_r); - left_r - }); - right_result.unwrap() - }); -} - -/// Create a consumer on the slice of memory we are collecting into. -/// -/// The consumer needs to be used inside the scope function, and the -/// complete collect result passed back. -/// -/// This method will verify the collect result, and panic if the slice -/// was not fully written into. Otherwise, in the successful case, -/// the vector is complete with the collected result. -fn collect_with_consumer(vec: &mut Vec, len: usize, scope_fn: F) -where - T: Send, - F: FnOnce(CollectConsumer<'_, T>) -> CollectResult<'_, T>, -{ - // Reserve space for `len` more elements in the vector, - vec.reserve(len); - - // Create the consumer and run the callback for collection. - let result = scope_fn(CollectConsumer::appender(vec, len)); - - // The `CollectResult` represents a contiguous part of the slice, that has - // been written to. On unwind here, the `CollectResult` will be dropped. If - // some producers on the way did not produce enough elements, partial - // `CollectResult`s may have been dropped without being reduced to the final - // result, and we will see that as the length coming up short. - // - // Here, we assert that added length is fully initialized. This is checked - // by the following assert, which verifies if a complete `CollectResult` - // was produced; if the length is correct, it is necessarily covering the - // target slice. Since we know that the consumer cannot have escaped from - // `drive` (by parametricity, essentially), we know that any stores that - // will happen, have happened. Unless some code is buggy, that means we - // should have seen `len` total writes. - let actual_writes = result.len(); - assert!( - actual_writes == len, - "expected {} total writes, but got {}", - len, - actual_writes - ); - - // Release the result's mutable borrow and "proxy ownership" - // of the elements, before the vector takes it over. - result.release_ownership(); - - let new_len = vec.len() + len; - - unsafe { - vec.set_len(new_len); - } -} diff --git a/vendor/rayon/src/iter/collect/test.rs b/vendor/rayon/src/iter/collect/test.rs deleted file mode 100644 index 97bec3f..0000000 --- a/vendor/rayon/src/iter/collect/test.rs +++ /dev/null @@ -1,373 +0,0 @@ -#![cfg(test)] -#![allow(unused_assignments)] - -// These tests are primarily targeting "abusive" producers that will -// try to drive the "collect consumer" incorrectly. These should -// result in panics. - -use super::collect_with_consumer; -use crate::iter::plumbing::*; -use rayon_core::join; - -use std::fmt; -use std::panic; -use std::sync::atomic::{AtomicUsize, Ordering}; -use std::thread::Result as ThreadResult; - -/// Promises to produce 2 items, but then produces 3. Does not do any -/// splits at all. -#[test] -#[should_panic(expected = "too many values")] -fn produce_too_many_items() { - let mut v = vec![]; - collect_with_consumer(&mut v, 2, |consumer| { - let mut folder = consumer.into_folder(); - folder = folder.consume(22); - folder = folder.consume(23); - folder = folder.consume(24); - unreachable!("folder does not complete") - }); -} - -/// Produces fewer items than promised. Does not do any -/// splits at all. -#[test] -#[should_panic(expected = "expected 5 total writes, but got 2")] -fn produce_fewer_items() { - let mut v = vec![]; - collect_with_consumer(&mut v, 5, |consumer| { - let mut folder = consumer.into_folder(); - folder = folder.consume(22); - folder = folder.consume(23); - folder.complete() - }); -} - -// Complete is not called by the consumer. Hence,the collection vector is not fully initialized. -#[test] -#[should_panic(expected = "expected 4 total writes, but got 2")] -fn left_produces_items_with_no_complete() { - let mut v = vec![]; - collect_with_consumer(&mut v, 4, |consumer| { - let (left_consumer, right_consumer, _) = consumer.split_at(2); - let mut left_folder = left_consumer.into_folder(); - let mut right_folder = right_consumer.into_folder(); - left_folder = left_folder.consume(0).consume(1); - right_folder = right_folder.consume(2).consume(3); - right_folder.complete() - }); -} - -// Complete is not called by the right consumer. Hence,the -// collection vector is not fully initialized. -#[test] -#[should_panic(expected = "expected 4 total writes, but got 2")] -fn right_produces_items_with_no_complete() { - let mut v = vec![]; - collect_with_consumer(&mut v, 4, |consumer| { - let (left_consumer, right_consumer, _) = consumer.split_at(2); - let mut left_folder = left_consumer.into_folder(); - let mut right_folder = right_consumer.into_folder(); - left_folder = left_folder.consume(0).consume(1); - right_folder = right_folder.consume(2).consume(3); - left_folder.complete() - }); -} - -// Complete is not called by the consumer. Hence,the collection vector is not fully initialized. -#[test] -#[cfg_attr(not(panic = "unwind"), ignore)] -fn produces_items_with_no_complete() { - let counter = DropCounter::default(); - let mut v = vec![]; - let panic_result = panic::catch_unwind(panic::AssertUnwindSafe(|| { - collect_with_consumer(&mut v, 2, |consumer| { - let mut folder = consumer.into_folder(); - folder = folder.consume(counter.element()); - folder = folder.consume(counter.element()); - panic!("folder does not complete"); - }); - })); - assert!(v.is_empty()); - assert_is_panic_with_message(&panic_result, "folder does not complete"); - counter.assert_drop_count(); -} - -// The left consumer produces too many items while the right -// consumer produces correct number. -#[test] -#[should_panic(expected = "too many values")] -fn left_produces_too_many_items() { - let mut v = vec![]; - collect_with_consumer(&mut v, 4, |consumer| { - let (left_consumer, right_consumer, _) = consumer.split_at(2); - let mut left_folder = left_consumer.into_folder(); - let mut right_folder = right_consumer.into_folder(); - left_folder = left_folder.consume(0).consume(1).consume(2); - right_folder = right_folder.consume(2).consume(3); - let _ = right_folder.complete(); - unreachable!("folder does not complete"); - }); -} - -// The right consumer produces too many items while the left -// consumer produces correct number. -#[test] -#[should_panic(expected = "too many values")] -fn right_produces_too_many_items() { - let mut v = vec![]; - collect_with_consumer(&mut v, 4, |consumer| { - let (left_consumer, right_consumer, _) = consumer.split_at(2); - let mut left_folder = left_consumer.into_folder(); - let mut right_folder = right_consumer.into_folder(); - left_folder = left_folder.consume(0).consume(1); - right_folder = right_folder.consume(2).consume(3).consume(4); - let _ = left_folder.complete(); - unreachable!("folder does not complete"); - }); -} - -// The left consumer produces fewer items while the right -// consumer produces correct number. -#[test] -#[should_panic(expected = "expected 4 total writes, but got 1")] -fn left_produces_fewer_items() { - let mut v = vec![]; - collect_with_consumer(&mut v, 4, |consumer| { - let reducer = consumer.to_reducer(); - let (left_consumer, right_consumer, _) = consumer.split_at(2); - let mut left_folder = left_consumer.into_folder(); - let mut right_folder = right_consumer.into_folder(); - left_folder = left_folder.consume(0); - right_folder = right_folder.consume(2).consume(3); - let left_result = left_folder.complete(); - let right_result = right_folder.complete(); - reducer.reduce(left_result, right_result) - }); -} - -// The left and right consumer produce the correct number but -// only left result is returned -#[test] -#[should_panic(expected = "expected 4 total writes, but got 2")] -fn only_left_result() { - let mut v = vec![]; - collect_with_consumer(&mut v, 4, |consumer| { - let (left_consumer, right_consumer, _) = consumer.split_at(2); - let mut left_folder = left_consumer.into_folder(); - let mut right_folder = right_consumer.into_folder(); - left_folder = left_folder.consume(0).consume(1); - right_folder = right_folder.consume(2).consume(3); - let left_result = left_folder.complete(); - let _ = right_folder.complete(); - left_result - }); -} - -// The left and right consumer produce the correct number but -// only right result is returned -#[test] -#[should_panic(expected = "expected 4 total writes, but got 2")] -fn only_right_result() { - let mut v = vec![]; - collect_with_consumer(&mut v, 4, |consumer| { - let (left_consumer, right_consumer, _) = consumer.split_at(2); - let mut left_folder = left_consumer.into_folder(); - let mut right_folder = right_consumer.into_folder(); - left_folder = left_folder.consume(0).consume(1); - right_folder = right_folder.consume(2).consume(3); - let _ = left_folder.complete(); - right_folder.complete() - }); -} - -// The left and right consumer produce the correct number but reduce -// in the wrong order. -#[test] -#[should_panic(expected = "expected 4 total writes, but got 2")] -fn reducer_does_not_preserve_order() { - let mut v = vec![]; - collect_with_consumer(&mut v, 4, |consumer| { - let reducer = consumer.to_reducer(); - let (left_consumer, right_consumer, _) = consumer.split_at(2); - let mut left_folder = left_consumer.into_folder(); - let mut right_folder = right_consumer.into_folder(); - left_folder = left_folder.consume(0).consume(1); - right_folder = right_folder.consume(2).consume(3); - let left_result = left_folder.complete(); - let right_result = right_folder.complete(); - reducer.reduce(right_result, left_result) - }); -} - -// The right consumer produces fewer items while the left -// consumer produces correct number. -#[test] -#[should_panic(expected = "expected 4 total writes, but got 3")] -fn right_produces_fewer_items() { - let mut v = vec![]; - collect_with_consumer(&mut v, 4, |consumer| { - let reducer = consumer.to_reducer(); - let (left_consumer, right_consumer, _) = consumer.split_at(2); - let mut left_folder = left_consumer.into_folder(); - let mut right_folder = right_consumer.into_folder(); - left_folder = left_folder.consume(0).consume(1); - right_folder = right_folder.consume(2); - let left_result = left_folder.complete(); - let right_result = right_folder.complete(); - reducer.reduce(left_result, right_result) - }); -} - -// The left consumer panics and the right stops short, like `panic_fuse()`. -// We should get the left panic without finishing `collect_with_consumer`. -#[test] -#[should_panic(expected = "left consumer panic")] -fn left_panics() { - let mut v = vec![]; - collect_with_consumer(&mut v, 4, |consumer| { - let reducer = consumer.to_reducer(); - let (left_consumer, right_consumer, _) = consumer.split_at(2); - let (left_result, right_result) = join( - || { - let mut left_folder = left_consumer.into_folder(); - left_folder = left_folder.consume(0); - panic!("left consumer panic"); - }, - || { - let mut right_folder = right_consumer.into_folder(); - right_folder = right_folder.consume(2); - right_folder.complete() // early return - }, - ); - reducer.reduce(left_result, right_result) - }); - unreachable!(); -} - -// The right consumer panics and the left stops short, like `panic_fuse()`. -// We should get the right panic without finishing `collect_with_consumer`. -#[test] -#[should_panic(expected = "right consumer panic")] -fn right_panics() { - let mut v = vec![]; - collect_with_consumer(&mut v, 4, |consumer| { - let reducer = consumer.to_reducer(); - let (left_consumer, right_consumer, _) = consumer.split_at(2); - let (left_result, right_result) = join( - || { - let mut left_folder = left_consumer.into_folder(); - left_folder = left_folder.consume(0); - left_folder.complete() // early return - }, - || { - let mut right_folder = right_consumer.into_folder(); - right_folder = right_folder.consume(2); - panic!("right consumer panic"); - }, - ); - reducer.reduce(left_result, right_result) - }); - unreachable!(); -} - -// The left consumer produces fewer items while the right -// consumer produces correct number; check that created elements are dropped -#[test] -#[cfg_attr(not(panic = "unwind"), ignore)] -fn left_produces_fewer_items_drops() { - let counter = DropCounter::default(); - let mut v = vec![]; - let panic_result = panic::catch_unwind(panic::AssertUnwindSafe(|| { - collect_with_consumer(&mut v, 4, |consumer| { - let reducer = consumer.to_reducer(); - let (left_consumer, right_consumer, _) = consumer.split_at(2); - let mut left_folder = left_consumer.into_folder(); - let mut right_folder = right_consumer.into_folder(); - left_folder = left_folder.consume(counter.element()); - right_folder = right_folder - .consume(counter.element()) - .consume(counter.element()); - let left_result = left_folder.complete(); - let right_result = right_folder.complete(); - reducer.reduce(left_result, right_result) - }); - })); - assert!(v.is_empty()); - assert_is_panic_with_message(&panic_result, "expected 4 total writes, but got 1"); - counter.assert_drop_count(); -} - -/// This counter can create elements, and then count and verify -/// the number of which have actually been dropped again. -#[derive(Default)] -struct DropCounter { - created: AtomicUsize, - dropped: AtomicUsize, -} - -struct Element<'a>(&'a AtomicUsize); - -impl DropCounter { - fn created(&self) -> usize { - self.created.load(Ordering::SeqCst) - } - - fn dropped(&self) -> usize { - self.dropped.load(Ordering::SeqCst) - } - - fn element(&self) -> Element<'_> { - self.created.fetch_add(1, Ordering::SeqCst); - Element(&self.dropped) - } - - fn assert_drop_count(&self) { - assert_eq!( - self.created(), - self.dropped(), - "Expected {} dropped elements, but found {}", - self.created(), - self.dropped() - ); - } -} - -impl<'a> Drop for Element<'a> { - fn drop(&mut self) { - self.0.fetch_add(1, Ordering::SeqCst); - } -} - -/// Assert that the result from catch_unwind is a panic that contains expected message -fn assert_is_panic_with_message(result: &ThreadResult, expected: &str) -where - T: fmt::Debug, -{ - match result { - Ok(value) => { - panic!( - "assertion failure: Expected panic, got successful {:?}", - value - ); - } - Err(error) => { - let message_str = error.downcast_ref::<&'static str>().cloned(); - let message_string = error.downcast_ref::().map(String::as_str); - if let Some(message) = message_str.or(message_string) { - if !message.contains(expected) { - panic!( - "assertion failure: Expected {:?}, but found panic with {:?}", - expected, message - ); - } - // assertion passes - } else { - panic!( - "assertion failure: Expected {:?}, but found panic with unknown value", - expected - ); - } - } - } -} -- cgit v1.2.3