lib.rs source code [crates/rayon/src/lib.rs]

1	#![deny(missing_debug_implementations)]
2	#![deny(missing_docs)]
3	#![deny(unreachable_pub)]
4	#![warn(rust_2018_idioms)]
5
6	//! Data-parallelism library that makes it easy to convert sequential
7	//! computations into parallel
8	//!
9	//! Rayon is lightweight and convenient for introducing parallelism into existing
10	//! code. It guarantees data-race free executions and takes advantage of
11	//! parallelism when sensible, based on work-load at runtime.
12	//!
13	//! # How to use Rayon
14	//!
15	//! There are two ways to use Rayon:
16	//!
17	//! - High-level parallel constructs* are the simplest way to use Rayon and also*
18	//! typically the most efficient.
19	//! - [Parallel iterators][iter module] make it easy to convert a sequential iterator to
20	//! execute in parallel.
21	//! - The [`ParallelIterator`] trait defines general methods for all parallel iterators.
22	//! - The [`IndexedParallelIterator`] trait adds methods for iterators that support random
23	//! access.
24	//! - The [`par_sort`] method sorts `&mut [T]` slices (or vectors) in parallel.
25	//! - [`par_extend`] can be used to efficiently grow collections with items produced
26	//! by a parallel iterator.
27	//! - Custom tasks* let you divide your work into parallel tasks yourself.*
28	//! - [`join`] is used to subdivide a task into two pieces.
29	//! - [`scope`] creates a scope within which you can create any number of parallel tasks.
30	//! - [`ThreadPoolBuilder`] can be used to create your own thread pools or customize
31	//! the global one.
32	//!
33	//! [iter module]: iter/index.html
34	//! [`join`]: fn.join.html
35	//! [`scope`]: fn.scope.html
36	//! [`par_sort`]: slice/trait.ParallelSliceMut.html#method.par_sort
37	//! [`par_extend`]: iter/trait.ParallelExtend.html#tymethod.par_extend
38	//! [`ThreadPoolBuilder`]: struct.ThreadPoolBuilder.html
39	//!
40	//! # Basic usage and the Rayon prelude
41	//!
42	//! First, you will need to add `rayon` to your `Cargo.toml`.
43	//!
44	//! Next, to use parallel iterators or the other high-level methods,
45	//! you need to import several traits. Those traits are bundled into
46	//! the module [`rayon::prelude`]. It is recommended that you import
47	//! all of these traits at once by adding `use rayon::prelude::` at*
48	//! the top of each module that uses Rayon methods.
49	//!
50	//! These traits give you access to the `par_iter` method which provides
51	//! parallel implementations of many iterative functions such as [`map`],
52	//! [`for_each`], [`filter`], [`fold`], and [more].
53	//!
54	//! [`rayon::prelude`]: prelude/index.html
55	//! [`map`]: iter/trait.ParallelIterator.html#method.map
56	//! [`for_each`]: iter/trait.ParallelIterator.html#method.for_each
57	//! [`filter`]: iter/trait.ParallelIterator.html#method.filter
58	//! [`fold`]: iter/trait.ParallelIterator.html#method.fold
59	//! [more]: iter/trait.ParallelIterator.html#provided-methods
60	//! [`ParallelIterator`]: iter/trait.ParallelIterator.html
61	//! [`IndexedParallelIterator`]: iter/trait.IndexedParallelIterator.html
62	//!
63	//! # Crate Layout
64	//!
65	//! Rayon extends many of the types found in the standard library with
66	//! parallel iterator implementations. The modules in the `rayon`
67	//! crate mirror [`std`] itself: so, e.g., the `option` module in
68	//! Rayon contains parallel iterators for the `Option` type, which is
69	//! found in [the `option` module of `std`]. Similarly, the
70	//! `collections` module in Rayon offers parallel iterator types for
71	//! [the `collections` from `std`]. You will rarely need to access
72	//! these submodules unless you need to name iterator types
73	//! explicitly.
74	//!
75	//! [the `option` module of `std`]: https://doc.rust-lang.org/std/option/index.html
76	//! [the `collections` from `std`]: https://doc.rust-lang.org/std/collections/index.html
77	//! [`std`]: https://doc.rust-lang.org/std/
78	//!
79	//! # Targets without threading
80	//!
81	//! Rayon has limited support for targets without `std` threading implementations.
82	//! See the [`rayon_core`] documentation for more information about its global fallback.
83	//!
84	//! # Other questions?
85	//!
86	//! See [the Rayon FAQ][faq].
87	//!
88	//! [faq]: https://github.com/rayon-rs/rayon/blob/master/FAQ.md
89
90	#[macro_use]
91	mod delegate;
92
93	#[macro_use]
94	mod private;
95
96	mod split_producer;
97
98	pub mod array;
99	pub mod collections;
100	pub mod iter;
101	pub mod option;
102	pub mod prelude;
103	pub mod range;
104	pub mod range_inclusive;
105	pub mod result;
106	pub mod slice;
107	pub mod str;
108	pub mod string;
109	pub mod vec;
110
111	mod math;
112	mod par_either;
113
114	mod compile_fail;
115
116	pub use rayon_core::FnContext;
117	pub use rayon_core::ThreadBuilder;
118	pub use rayon_core::ThreadPool;
119	pub use rayon_core::ThreadPoolBuildError;
120	pub use rayon_core::ThreadPoolBuilder;
121	pub use rayon_core::{broadcast, spawn_broadcast, BroadcastContext};
122	pub use rayon_core::{current_num_threads, current_thread_index, max_num_threads};
123	pub use rayon_core::{in_place_scope, scope, Scope};
124	pub use rayon_core::{in_place_scope_fifo, scope_fifo, ScopeFifo};
125	pub use rayon_core::{join, join_context};
126	pub use rayon_core::{spawn, spawn_fifo};
127	pub use rayon_core::{yield_local, yield_now, Yield};
128
129	/// We need to transmit raw pointers across threads. It is possible to do this
130	/// without any unsafe code by converting pointers to usize or to AtomicPtr<T>
131	/// then back to a raw pointer for use. We prefer this approach because code
132	/// that uses this type is more explicit.
133	///
134	/// Unsafe code is still required to dereference the pointer, so this type is
135	/// not unsound on its own, although it does partly lift the unconditional
136	/// !Send and !Sync on raw pointers. As always, dereference with care.
137	struct SendPtr<T>(*mut T);
138
139	// SAFETY: !Send for raw pointers is not for safety, just as a lint
140	unsafe impl<T: Send> Send for SendPtr<T> {}
141
142	// SAFETY: !Sync for raw pointers is not for safety, just as a lint
143	unsafe impl<T: Send> Sync for SendPtr<T> {}
144
145	impl<T> SendPtr<T> {
146	// Helper to avoid disjoint captures of `send_ptr.0`
147	fn get(self) -> *mut T {
148	self.0
149	}
150	}
151
152	// Implement Clone without the T: Clone bound from the derive
153	impl<T> Clone for SendPtr<T> {
154	fn clone(&self) -> Self {
155	*self
156	}
157	}
158
159	// Implement Copy without the T: Copy bound from the derive
160	impl<T> Copy for SendPtr<T> {}
161