# Release rayon 1.9.0 (2024-02-27) - The new methods `IndexedParallelIterator::by_exponential_blocks` and `by_uniform_blocks` allow processing items in smaller groups at a time. - The new `iter::walk_tree`, `walk_tree_prefix`, and `walk_tree_postfix` functions enable custom parallel iteration over tree-like structures. - The new method `ParallelIterator::collect_vec_list` returns items as a linked list of vectors, which is an efficient mode of parallel collection used by many of the internal implementations of `collect`. - The new methods `ParallelSliceMut::par_split_inclusive_mut`, `ParallelSlice::par_split_inclusive`, and `ParallelString::par_split_inclusive` all work like a normal split but keeping the separator as part of the left slice. - The new `ParallelString::par_split_ascii_whitespace` splits only on ASCII whitespace, which is faster than including Unicode multi-byte whitespace. - `OsString` now implements `FromParallelIterator<_>` and `ParallelExtend<_>` for a few item types similar to the standard `FromIterator` and `Extend`. - The internal `Pattern` trait for string methods is now implemented for `[char; N]` and `&[char; N]`, matching any of the given characters. # Release rayon 1.8.1 / rayon-core 1.12.1 (2024-01-17) - The new `"web_spin_lock"` crate feature makes mutexes spin on the main browser thread in WebAssembly, rather than suffer an error about forbidden `atomics.wait` if they were to block in that context. Thanks @RReverser! # Release rayon 1.8.0 / rayon-core 1.12.0 (2023-09-20) - The minimum supported `rustc` is now 1.63. - Added `ThreadPoolBuilder::use_current_thread` to use the builder thread as part of the new thread pool. That thread does not run the pool's main loop, but it may participate in work-stealing if it yields to rayon in some way. - Implemented `FromParallelIterator` for `Box<[T]>`, `Rc<[T]>`, and `Arc<[T]>`, as well as `FromParallelIterator>` and `ParallelExtend>` for `String`. - `ThreadPoolBuilder::build_scoped` now uses `std::thread::scope`. - The default number of threads is now determined using `std::thread::available_parallelism` instead of the `num_cpus` crate. - The internal logging facility has been removed, reducing bloat for all users. - Many smaller performance tweaks and documentation updates. # Release rayon 1.7.0 / rayon-core 1.11.0 (2023-03-03) - The minimum supported `rustc` is now 1.59. - Added a fallback when threading is unsupported. - The new `ParallelIterator::take_any` and `skip_any` methods work like unordered `IndexedParallelIterator::take` and `skip`, counting items in whatever order they are visited in parallel. - The new `ParallelIterator::take_any_while` and `skip_any_while` methods work like unordered `Iterator::take_while` and `skip_while`, which previously had no parallel equivalent. The "while" condition may be satisfied from anywhere in the parallel iterator, affecting all future items regardless of position. - The new `yield_now` and `yield_local` functions will cooperatively yield execution to Rayon, either trying to execute pending work from the entire pool or from just the local deques of the current thread, respectively. # Release rayon-core 1.10.2 (2023-01-22) - Fixed miri-reported UB for SharedReadOnly tags protected by a call. # Release rayon 1.6.1 (2022-12-09) - Simplified `par_bridge` to only pull one item at a time from the iterator, without batching. Threads that are waiting for iterator items will now block appropriately rather than spinning CPU. (Thanks @njaard!) - Added protection against recursion in `par_bridge`, so iterators that also invoke rayon will not cause mutex recursion deadlocks. # Release rayon-core 1.10.1 (2022-11-18) - Fixed a race condition with threads going to sleep while a broadcast starts. # Release rayon 1.6.0 / rayon-core 1.10.0 (2022-11-18) - The minimum supported `rustc` is now 1.56. - The new `IndexedParallelIterator::fold_chunks` and `fold_chunks_with` methods work like `ParallelIterator::fold` and `fold_with` with fixed-size chunks of items. This may be useful for predictable batching performance, without the allocation overhead of `IndexedParallelIterator::chunks`. - New "broadcast" methods run a given function on all threads in the pool. These run at a sort of reduced priority after each thread has exhausted their local work queue, but before they attempt work-stealing from other threads. - The global `broadcast` function and `ThreadPool::broadcast` method will block until completion, returning a `Vec` of all return values. - The global `spawn_broadcast` function and methods on `ThreadPool`, `Scope`, and `ScopeFifo` will run detached, without blocking the current thread. - Panicking methods now use `#[track_caller]` to report the caller's location. - Fixed a truncated length in `vec::Drain` when given an empty range. ## Contributors Thanks to all of the contributors for this release! - @cuviper - @idanmuze - @JoeyBF - @JustForFun88 - @kianmeng - @kornelski - @ritchie46 - @ryanrussell - @steffahn - @TheIronBorn - @willcrozi # Release rayon 1.5.3 (2022-05-13) - The new `ParallelSliceMut::par_sort_by_cached_key` is a stable sort that caches the keys for each item -- a parallel version of `slice::sort_by_cached_key`. # Release rayon-core 1.9.3 (2022-05-13) - Fixed a use-after-free race in job notification. # Release rayon 1.5.2 / rayon-core 1.9.2 (2022-04-13) - The new `ParallelSlice::par_rchunks()` and `par_rchunks_exact()` iterate slice chunks in reverse, aligned the against the end of the slice if the length is not a perfect multiple of the chunk size. The new `ParallelSliceMut::par_rchunks_mut()` and `par_rchunks_exact_mut()` are the same for mutable slices. - The `ParallelIterator::try_*` methods now support `std::ops::ControlFlow` and `std::task::Poll` items, mirroring the unstable `Try` implementations in the standard library. - The `ParallelString` pattern-based methods now support `&[char]` patterns, which match when any character in that slice is found in the string. - A soft limit is now enforced on the number of threads allowed in a single thread pool, respecting internal bit limits that already existed. The current maximum is publicly available from the new function `max_num_threads()`. - Fixed several Stacked Borrow and provenance issues found by `cargo miri`. ## Contributors Thanks to all of the contributors for this release! - @atouchet - @bluss - @cuviper - @fzyzcjy - @nyanzebra - @paolobarbolini - @RReverser - @saethlin # Release rayon 1.5.1 / rayon-core 1.9.1 (2021-05-18) - The new `in_place_scope` and `in_place_scope_fifo` are variations of `scope` and `scope_fifo`, running the initial non-`Send` callback directly on the current thread, rather than moving execution to the thread pool. - With Rust 1.51 or later, arrays now implement `IntoParallelIterator`. - New implementations of `FromParallelIterator` make it possible to `collect` complicated nestings of items. - `FromParallelIterator<(A, B)> for (FromA, FromB)` works like `unzip`. - `FromParallelIterator> for (A, B)` works like `partition_map`. - Type inference now works better with parallel `Range` and `RangeInclusive`. - The implementation of `FromParallelIterator` and `ParallelExtend` for `Vec` now uses `MaybeUninit` internally to avoid creating any references to uninitialized data. - `ParallelBridge` fixed a bug with threads missing available work. ## Contributors Thanks to all of the contributors for this release! - @atouchet - @cuviper - @Hywan - @iRaiko - @Qwaz - @rocallahan # Release rayon 1.5.0 / rayon-core 1.9.0 (2020-10-21) - Update crossbeam dependencies. - The minimum supported `rustc` is now 1.36. ## Contributors Thanks to all of the contributors for this release! - @cuviper - @mbrubeck - @mrksu # Release rayon 1.4.1 (2020-09-29) - The new `flat_map_iter` and `flatten_iter` methods can be used to flatten sequential iterators, which may perform better in cases that don't need the nested parallelism of `flat_map` and `flatten`. - The new `par_drain` method is a parallel version of the standard `drain` for collections, removing items while keeping the original capacity. Collections that implement this through `ParallelDrainRange` support draining items from arbitrary index ranges, while `ParallelDrainFull` always drains everything. - The new `positions` method finds all items that match the given predicate and returns their indices in a new iterator. # Release rayon-core 1.8.1 (2020-09-17) - Fixed an overflow panic on high-contention workloads, for a counter that was meant to simply wrap. This panic only occurred with debug assertions enabled, and was much more likely on 32-bit targets. # Release rayon 1.4.0 / rayon-core 1.8.0 (2020-08-24) - Implemented a new thread scheduler, [RFC 5], which uses targeted wakeups for new work and for notifications of completed stolen work, reducing wasteful CPU usage in idle threads. - Implemented `IntoParallelIterator for Range` and `RangeInclusive` with the same iteration semantics as Rust 1.45. - Relaxed the lifetime requirements of the initial `scope` closure. [RFC 5]: https://github.com/rayon-rs/rfcs/pull/5 ## Contributors Thanks to all of the contributors for this release! - @CAD97 - @cuviper - @kmaork - @nikomatsakis - @SuperFluffy # Release rayon 1.3.1 / rayon-core 1.7.1 (2020-06-15) - Fixed a use-after-free race in calls blocked between two rayon thread pools. - Collecting to an indexed `Vec` now drops any partial writes while unwinding, rather than just leaking them. If dropping also panics, Rust will abort. - Note: the old leaking behavior is considered _safe_, just not ideal. - The new `IndexedParallelIterator::step_by()` adapts an iterator to step through items by the given count, like `Iterator::step_by()`. - The new `ParallelSlice::par_chunks_exact()` and mutable equivalent `ParallelSliceMut::par_chunks_exact_mut()` ensure that the chunks always have the exact length requested, leaving any remainder separate, like the slice methods `chunks_exact()` and `chunks_exact_mut()`. ## Contributors Thanks to all of the contributors for this release! - @adrian5 - @bluss - @cuviper - @FlyingCanoe - @GuillaumeGomez - @matthiasbeyer - @picoHz - @zesterer # Release rayon 1.3.0 / rayon-core 1.7.0 (2019-12-21) - Tuples up to length 12 now implement `IntoParallelIterator`, creating a `MultiZip` iterator that produces items as similarly-shaped tuples. - The `--cfg=rayon_unstable` supporting code for `rayon-futures` is removed. - The minimum supported `rustc` is now 1.31. ## Contributors Thanks to all of the contributors for this release! - @cuviper - @c410-f3r - @silwol # Release rayon-futures 0.1.1 (2019-12-21) - `Send` bounds have been added for the `Item` and `Error` associated types on all generic `F: Future` interfaces. While technically a breaking change, this is a soundness fix, so we are not increasing the semantic version for this. - This crate is now deprecated, and the `--cfg=rayon_unstable` supporting code will be removed in `rayon-core 1.7.0`. This only supported the now-obsolete `Future` from `futures 0.1`, while support for `std::future::Future` is expected to come directly in `rayon-core` -- although that is not ready yet. ## Contributors Thanks to all of the contributors for this release! - @cuviper - @kornelski - @jClaireCodesStuff - @jwass - @seanchen1991 # Release rayon 1.2.1 / rayon-core 1.6.1 (2019-11-20) - Update crossbeam dependencies. - Add top-level doc links for the iterator traits. - Document that the iterator traits are not object safe. ## Contributors Thanks to all of the contributors for this release! - @cuviper - @dnaka91 - @matklad - @nikomatsakis - @Qqwy - @vorner # Release rayon 1.2.0 / rayon-core 1.6.0 (2019-08-30) - The new `ParallelIterator::copied()` converts an iterator of references into copied values, like `Iterator::copied()`. - `ParallelExtend` is now implemented for the unit `()`. - Internal updates were made to improve test determinism, reduce closure type sizes, reduce task allocations, and update dependencies. - The minimum supported `rustc` is now 1.28. ## Contributors Thanks to all of the contributors for this release! - @Aaron1011 - @cuviper - @ralfbiedert # Release rayon 1.1.0 / rayon-core 1.5.0 (2019-06-12) - FIFO spawns are now supported using the new `spawn_fifo()` and `scope_fifo()` global functions, and their corresponding `ThreadPool` methods. - Normally when tasks are queued on a thread, the most recent is processed first (LIFO) while other threads will steal the oldest (FIFO). With FIFO spawns, those tasks are processed locally in FIFO order too. - Regular spawns and other tasks like `join` are not affected. - The `breadth_first` configuration flag, which globally approximated this effect, is now deprecated. - For more design details, please see [RFC 1]. - `ThreadPoolBuilder` can now take a custom `spawn_handler` to control how threads will be created in the pool. - `ThreadPoolBuilder::build_scoped()` uses this to create a scoped thread pool, where the threads are able to use non-static data. - This may also be used to support threading in exotic environments, like WebAssembly, which don't support the normal `std::thread`. - `ParallelIterator` has 3 new methods: `find_map_any()`, `find_map_first()`, and `find_map_last()`, like `Iterator::find_map()` with ordering constraints. - The new `ParallelIterator::panic_fuse()` makes a parallel iterator halt as soon as possible if any of its threads panic. Otherwise, the panic state is not usually noticed until the iterator joins its parallel tasks back together. - `IntoParallelIterator` is now implemented for integral `RangeInclusive`. - Several internal `Folder`s now have optimized `consume_iter` implementations. - `rayon_core::current_thread_index()` is now re-exported in `rayon`. - The minimum `rustc` is now 1.26, following the update policy defined in [RFC 3]. ## Contributors Thanks to all of the contributors for this release! - @cuviper - @didroe - @GuillaumeGomez - @huonw - @janriemer - @kornelski - @nikomatsakis - @seanchen1991 - @yegeun542 [RFC 1]: https://github.com/rayon-rs/rfcs/blob/main/accepted/rfc0001-scope-scheduling.md [RFC 3]: https://github.com/rayon-rs/rfcs/blob/main/accepted/rfc0003-minimum-rustc.md # Release rayon 1.0.3 (2018-11-02) - `ParallelExtend` is now implemented for tuple pairs, enabling nested `unzip()` and `partition_map()` operations. For instance, `(A, (B, C))` items can be unzipped into `(Vec, (Vec, Vec))`. - `ParallelExtend<(A, B)>` works like `unzip()`. - `ParallelExtend>` works like `partition_map()`. - `ParallelIterator` now has a method `map_init()` which calls an `init` function for a value to pair with items, like `map_with()` but dynamically constructed. That value type has no constraints, not even `Send` or `Sync`. - The new `for_each_init()` is a variant of this for simple iteration. - The new `try_for_each_init()` is a variant for fallible iteration. ## Contributors Thanks to all of the contributors for this release! - @cuviper - @dan-zheng - @dholbert - @ignatenkobrain - @mdonoughe # Release rayon 1.0.2 / rayon-core 1.4.1 (2018-07-17) - The `ParallelBridge` trait with method `par_bridge()` makes it possible to use any `Send`able `Iterator` in parallel! - This trait has been added to `rayon::prelude`. - It automatically implements internal synchronization and queueing to spread the `Item`s across the thread pool. Iteration order is not preserved by this adaptor. - "Native" Rayon iterators like `par_iter()` should still be preferred when possible for better efficiency. - `ParallelString` now has additional methods for parity with `std` string iterators: `par_char_indices()`, `par_bytes()`, `par_encode_utf16()`, `par_matches()`, and `par_match_indices()`. - `ParallelIterator` now has fallible methods `try_fold()`, `try_reduce()`, and `try_for_each`, plus `*_with()` variants of each, for automatically short-circuiting iterators on `None` or `Err` values. These are inspired by `Iterator::try_fold()` and `try_for_each()` that were stabilized in Rust 1.27. - `Range` and `Range` are now supported with Rust 1.26 and later. - Small improvements have been made to the documentation. - `rayon-core` now only depends on `rand` for testing. - Rayon tests now work on stable Rust. ## Contributors Thanks to all of the contributors for this release! - @AndyGauge - @cuviper - @ignatenkobrain - @LukasKalbertodt - @MajorBreakfast - @nikomatsakis - @paulkernfeld - @QuietMisdreavus # Release rayon 1.0.1 (2018-03-16) - Added more documentation for `rayon::iter::split()`. - Corrected links and typos in documentation. ## Contributors Thanks to all of the contributors for this release! - @cuviper - @HadrienG2 - @matthiasbeyer - @nikomatsakis # Release rayon 1.0.0 / rayon-core 1.4.0 (2018-02-15) - `ParallelIterator` added the `update` method which applies a function to mutable references, inspired by `itertools`. - `IndexedParallelIterator` added the `chunks` method which yields vectors of consecutive items from the base iterator, inspired by `itertools`. - `String` now implements `FromParallelIterator>` and `ParallelExtend>`, inspired by `std`. - `()` now implements `FromParallelIterator<()>`, inspired by `std`. - The new `ThreadPoolBuilder` replaces and deprecates `Configuration`. - Errors from initialization now have the concrete `ThreadPoolBuildError` type, rather than `Box`, and this type implements `Send` and `Sync`. - `ThreadPool::new` is deprecated in favor of `ThreadPoolBuilder::build`. - `initialize` is deprecated in favor of `ThreadPoolBuilder::build_global`. - Examples have been added to most of the parallel iterator methods. - A lot of the documentation has been reorganized and extended. ## Breaking changes - Rayon now requires rustc 1.13 or greater. - `IndexedParallelIterator::len` and `ParallelIterator::opt_len` now operate on `&self` instead of `&mut self`. - `IndexedParallelIterator::collect_into` is now `collect_into_vec`. - `IndexedParallelIterator::unzip_into` is now `unzip_into_vecs`. - Rayon no longer exports the deprecated `Configuration` and `initialize` from rayon-core. ## Contributors Thanks to all of the contributors for this release! - @Bilkow - @cuviper - @Enet4 - @ignatenkobrain - @iwillspeak - @jeehoonkang - @jwass - @Kerollmops - @KodrAus - @kornelski - @MaloJaffre - @nikomatsakis - @obv-mikhail - @oddg - @phimuemue - @stjepang - @tmccombs - bors[bot] # Release rayon 0.9.0 / rayon-core 1.3.0 / rayon-futures 0.1.0 (2017-11-09) - `Configuration` now has a `build` method. - `ParallelIterator` added `flatten` and `intersperse`, both inspired by itertools. - `IndexedParallelIterator` added `interleave`, `interleave_shortest`, and `zip_eq`, all inspired by itertools. - The new functions `iter::empty` and `once` create parallel iterators of exactly zero or one item, like their `std` counterparts. - The new functions `iter::repeat` and `repeatn` create parallel iterators repeating an item indefinitely or `n` times, respectively. - The new function `join_context` works like `join`, with an added `FnContext` parameter that indicates whether the job was stolen. - `Either` (used by `ParallelIterator::partition_map`) is now re-exported from the `either` crate, instead of defining our own type. - `Either` also now implements `ParallelIterator`, `IndexedParallelIterator`, and `ParallelExtend` when both of its `Left` and `Right` types do. - All public types now implement `Debug`. - Many of the parallel iterators now implement `Clone` where possible. - Much of the documentation has been extended. (but still could use more help!) - All rayon crates have improved metadata. - Rayon was evaluated in the Libz Blitz, leading to many of these improvements. - Rayon pull requests are now guarded by bors-ng. ## Futures The `spawn_future()` method has been refactored into its own `rayon-futures` crate, now through a `ScopeFutureExt` trait for `ThreadPool` and `Scope`. The supporting `rayon-core` APIs are still gated by `--cfg rayon_unstable`. ## Breaking changes - Two breaking changes have been made to `rayon-core`, but since they're fixing soundness bugs, we are considering these _minor_ changes for semver. - `Scope::spawn` now requires `Send` for the closure. - `ThreadPool::install` now requires `Send` for the return value. - The `iter::internal` module has been renamed to `iter::plumbing`, to hopefully indicate that while these are low-level details, they're not really internal or private to rayon. The contents of that module are needed for third-parties to implement new parallel iterators, and we'll treat them with normal semver stability guarantees. - The function `rayon::iter::split` is no longer re-exported as `rayon::split`. ## Contributors Thanks to all of the contributors for this release! - @AndyGauge - @ChristopherDavenport - @chrisvittal - @cuviper - @dns2utf8 - @dtolnay - @frewsxcv - @gsquire - @Hittherhod - @jdr023 - @laumann - @leodasvacas - @lvillani - @MajorBreakfast - @mamuleanu - @marmistrz - @mbrubeck - @mgattozzi - @nikomatsakis - @smt923 - @stjepang - @tmccombs - @vishalsodani - bors[bot] # Release rayon 0.8.2 (2017-06-28) - `ParallelSliceMut` now has six parallel sorting methods with the same variations as the standard library. - `par_sort`, `par_sort_by`, and `par_sort_by_key` perform stable sorts in parallel, using the default order, a custom comparator, or a key extraction function, respectively. - `par_sort_unstable`, `par_sort_unstable_by`, and `par_sort_unstable_by_key` perform unstable sorts with the same comparison options. - Thanks to @stjepang! # Release rayon 0.8.1 / rayon-core 1.2.0 (2017-06-14) - The following core APIs are being stabilized: - `rayon::spawn()` -- spawns a task into the Rayon threadpool; as it is contained in the global scope (rather than a user-created scope), the task cannot capture anything from the current stack frame. - `ThreadPool::join()`, `ThreadPool::spawn()`, `ThreadPool::scope()` -- convenience APIs for launching new work within a thread-pool. - The various iterator adapters are now tagged with `#[must_use]` - Parallel iterators now offer a `for_each_with` adapter, similar to `map_with`. - We are adopting a new approach to handling the remaining unstable APIs (which primarily pertain to futures integration). As awlays, unstable APIs are intended for experimentation, but do not come with any promise of compatibility (in other words, we might change them in arbitrary ways in any release). Previously, we designated such APIs using a Cargo feature "unstable". Now, we are using a regular `#[cfg]` flag. This means that to see the unstable APIs, you must do `RUSTFLAGS='--cfg rayon_unstable' cargo build`. This is intentionally inconvenient; in particular, if you are a library, then your clients must also modify their environment, signaling their agreement to instability. # Release rayon 0.8.0 / rayon-core 1.1.0 (2017-06-13) ## Rayon 0.8.0 - Added the `map_with` and `fold_with` combinators, which help for passing along state (like channels) that cannot be shared between threads but which can be cloned on each thread split. - Added the `while_some` combinator, which helps for writing short-circuiting iterators. - Added support for "short-circuiting" collection: e.g., collecting from an iterator producing `Option` or `Result` into a `Option>` or `Result, E>`. - Support `FromParallelIterator` for `Cow`. - Removed the deprecated weight APIs. - Simplified the parallel iterator trait hierarchy by removing the `BoundedParallelIterator` and `ExactParallelIterator` traits, which were not serving much purpose. - Improved documentation. - Added some missing `Send` impls. - Fixed some small bugs. ## Rayon-core 1.1.0 - We now have more documentation. - Renamed the (unstable) methods `spawn_async` and `spawn_future_async` -- which spawn tasks that cannot hold references -- to simply `spawn` and `spawn_future`, respectively. - We are now using the coco library for our deque. - Individual threadpools can now be configured in "breadth-first" mode, which causes them to execute spawned tasks in the reverse order that they used to. In some specific scenarios, this can be a win (though it is not generally the right choice). - Added top-level functions: - `current_thread_index`, for querying the index of the current worker thread within its thread-pool (previously available as `thread_pool.current_thread_index()`); - `current_thread_has_pending_tasks`, for querying whether the current worker that has an empty task deque or not. This can be useful when deciding whether to spawn a task. - The environment variables for controlling Rayon are now `RAYON_NUM_THREADS` and `RAYON_LOG`. The older variables (e.g., `RAYON_RS_NUM_CPUS` are still supported but deprecated). ## Rayon-demo - Added a new game-of-life benchmark. ## Contributors Thanks to the following contributors: - @ChristopherDavenport - @SuperFluffy - @antoinewdg - @crazymykl - @cuviper - @glandium - @julian-seward1 - @leodasvacas - @leshow - @lilianmoraru - @mschmo - @nikomatsakis - @stjepang # Release rayon 0.7.1 / rayon-core 1.0.2 (2017-05-30) This release is a targeted performance fix for #343, an issue where rayon threads could sometimes enter into a spin loop where they would be unable to make progress until they are pre-empted. # Release rayon 0.7 / rayon-core 1.0 (2017-04-06) This release marks the first step towards Rayon 1.0. **For best performance, it is important that all Rayon users update to at least Rayon 0.7.** This is because, as of Rayon 0.7, we have taken steps to ensure that, no matter how many versions of rayon are actively in use, there will only be a single global scheduler. This is achieved via the `rayon-core` crate, which is being released at version 1.0, and which encapsulates the core schedule APIs like `join()`. (Note: the `rayon-core` crate is, to some degree, an implementation detail, and not intended to be imported directly; it's entire API surface is mirrored through the rayon crate.) We have also done a lot of work reorganizing the API for Rayon 0.7 in preparation for 1.0. The names of iterator types have been changed and reorganized (but few users are expected to be naming those types explicitly anyhow). In addition, a number of parallel iterator methods have been adjusted to match those in the standard iterator traits more closely. See the "Breaking Changes" section below for details. Finally, Rayon 0.7 includes a number of new features and new parallel iterator methods. **As of this release, Rayon's parallel iterators have officially reached parity with sequential iterators** -- that is, every sequential iterator method that makes any sense in parallel is supported in some capacity. ### New features and methods - The internal `Producer` trait now features `fold_with`, which enables better performance for some parallel iterators. - Strings now support `par_split()` and `par_split_whitespace()`. - The `Configuration` API is expanded and simplified: - `num_threads(0)` no longer triggers an error - you can now supply a closure to name the Rayon threads that get created by using `Configuration::thread_name`. - you can now inject code when Rayon threads start up and finish - you can now set a custom panic handler to handle panics in various odd situations - Threadpools are now able to more gracefully put threads to sleep when not needed. - Parallel iterators now support `find_first()`, `find_last()`, `position_first()`, and `position_last()`. - Parallel iterators now support `rev()`, which primarily affects subsequent calls to `enumerate()`. - The `scope()` API is now considered stable (and part of `rayon-core`). - There is now a useful `rayon::split` function for creating custom Rayon parallel iterators. - Parallel iterators now allow you to customize the min/max number of items to be processed in a given thread. This mechanism replaces the older `weight` mechanism, which is deprecated. - `sum()` and friends now use the standard `Sum` traits ### Breaking changes In the move towards 1.0, there have been a number of minor breaking changes: - Configuration setters like `Configuration::set_num_threads()` lost the `set_` prefix, and hence become something like `Configuration::num_threads()`. - `Configuration` getters are removed - Iterator types have been shuffled around and exposed more consistently: - combinator types live in `rayon::iter`, e.g. `rayon::iter::Filter` - iterators over various types live in a module named after their type, e.g. `rayon::slice::Windows` - When doing a `sum()` or `product()`, type annotations are needed for the result since it is now possible to have the resulting sum be of a type other than the value you are iterating over (this mirrors sequential iterators). ### Experimental features Experimental features require the use of the `unstable` feature. Their APIs may change or disappear entirely in future releases (even minor releases) and hence they should be avoided for production code. - We now have (unstable) support for futures integration. You can use `Scope::spawn_future` or `rayon::spawn_future_async()`. - There is now a `rayon::spawn_async()` function for using the Rayon threadpool to run tasks that do not have references to the stack. ### Contributors Thanks to the following people for their contributions to this release: - @Aaronepower - @ChristopherDavenport - @bluss - @cuviper - @froydnj - @gaurikholkar - @hniksic - @leodasvacas - @leshow - @martinhath - @mbrubeck - @nikomatsakis - @pegomes - @schuster - @torkleyy # Release 0.6 (2016-12-21) This release includes a lot of progress towards the goal of parity with the sequential iterator API, though there are still a few methods that are not yet complete. If you'd like to help with that effort, [check out the milestone](https://github.com/rayon-rs/rayon/issues?q=is%3Aopen+is%3Aissue+milestone%3A%22Parity+with+the+%60Iterator%60+trait%22) to see the remaining issues. **Announcement:** @cuviper has been added as a collaborator to the Rayon repository for all of his outstanding work on Rayon, which includes both internal refactoring and helping to shape the public API. Thanks @cuviper! Keep it up. - We now support `collect()` and not just `collect_with()`. You can use `collect()` to build a number of collections, including vectors, maps, and sets. Moreover, when building a vector with `collect()`, you are no longer limited to exact parallel iterators. Thanks @nikomatsakis, @cuviper! - We now support `skip()` and `take()` on parallel iterators. Thanks @martinhath! - **Breaking change:** We now match the sequential APIs for `min()` and `max()`. We also support `min_by_key()` and `max_by_key()`. Thanks @tapeinosyne! - **Breaking change:** The `mul()` method is now renamed to `product()`, to match sequential iterators. Thanks @jonathandturner! - We now support parallel iterator over ranges on `u64` values. Thanks @cuviper! - We now offer a `par_chars()` method on strings for iterating over characters in parallel. Thanks @cuviper! - We now have new demos: a traveling salesman problem solver as well as matrix multiplication. Thanks @nikomatsakis, @edre! - We are now documenting our minimum rustc requirement (currently v1.12.0). We will attempt to maintain compatibility with rustc stable v1.12.0 as long as it remains convenient, but if new features are stabilized or added that would be helpful to Rayon, or there are bug fixes that we need, we will bump to the most recent rustc. Thanks @cuviper! - The `reduce()` functionality now has better inlining. Thanks @bluss! - The `join()` function now has some documentation. Thanks @gsquire! - The project source has now been fully run through rustfmt. Thanks @ChristopherDavenport! - Exposed helper methods for accessing the current thread index. Thanks @bholley! # Release 0.5 (2016-11-04) - **Breaking change:** The `reduce` method has been vastly simplified, and `reduce_with_identity` has been deprecated. - **Breaking change:** The `fold` method has been changed. It used to always reduce the values, but now instead it is a combinator that returns a parallel iterator which can itself be reduced. See the docs for more information. - The following parallel iterator combinators are now available (thanks @cuviper!): - `find_any()`: similar to `find` on a sequential iterator, but doesn't necessarily return the *first* matching item - `position_any()`: similar to `position` on a sequential iterator, but doesn't necessarily return the index of *first* matching item - `any()`, `all()`: just like their sequential counterparts - The `count()` combinator is now available for parallel iterators. - We now build with older versions of rustc again (thanks @durango!), as we removed a stray semicolon from `thread_local!`. - Various improvements to the (unstable) `scope()` API implementation. # Release 0.4.3 (2016-10-25) - Parallel iterators now offer an adaptive weight scheme, which means that explicit weights should no longer be necessary in most cases! Thanks @cuviper! - We are considering removing weights or changing the weight mechanism before 1.0. Examples of scenarios where you still need weights even with this adaptive mechanism would be great. Join the discussion at . - New (unstable) scoped threads API, see `rayon::scope` for details. - You will need to supply the [cargo feature] `unstable`. - The various demos and benchmarks have been consolidated into one program, `rayon-demo`. - Optimizations in Rayon's inner workings. Thanks @emilio! - Update `num_cpus` to 1.0. Thanks @jamwt! - Various internal cleanup in the implementation and typo fixes. Thanks @cuviper, @Eh2406, and @spacejam! [cargo feature]: https://doc.rust-lang.org/cargo/reference/features.html#the-features-section # Release 0.4.2 (2016-09-15) - Updated crates.io metadata. # Release 0.4.1 (2016-09-14) - New `chain` combinator for parallel iterators. - `Option`, `Result`, as well as many more collection types now have parallel iterators. - New mergesort demo. - Misc fixes. Thanks to @cuviper, @edre, @jdanford, @frewsxcv for their contributions! # Release 0.4 (2016-05-16) - Make use of latest versions of catch-panic and various fixes to panic propagation. - Add new prime sieve demo. - Add `cloned()` and `inspect()` combinators. - Misc fixes for Rust RFC 1214. Thanks to @areilb1, @Amanieu, @SharplEr, and @cuviper for their contributions! # Release 0.3 (2016-02-23) - Expanded `par_iter` APIs now available: - `into_par_iter` is now supported on vectors (taking ownership of the elements) - Panic handling is much improved: - if you use the Nightly feature, experimental panic recovery is available - otherwise, panics propagate out and poision the workpool - New `Configuration` object to control number of threads and other details - New demos and benchmarks - try `cargo run --release -- visualize` in `demo/nbody` :) - Note: a nightly compiler is required for this demo due to the use of the `+=` syntax Thanks to @bjz, @cuviper, @Amanieu, and @willi-kappler for their contributions! # Release 0.2 and earlier No release notes were being kept at this time.