[][src]Crate rayon

Data-parallelism library that makes it easy to convert sequential computations into parallel

Rayon is lightweight and convenient for introducing parallelism into existing code. It guarantees data-race free executions and takes advantage of parallelism when sensible, based on work-load at runtime.

How to use Rayon

There are two ways to use Rayon:

Basic usage and the Rayon prelude

First, you will need to add rayon to your Cargo.toml.

Next, to use parallel iterators or the other high-level methods, you need to import several traits. Those traits are bundled into the module rayon::prelude. It is recommended that you import all of these traits at once by adding use rayon::prelude::* at the top of each module that uses Rayon methods.

These traits give you access to the par_iter method which provides parallel implementations of many iterative functions such as map, for_each, filter, fold, and more.

Crate Layout

Rayon extends many of the types found in the standard library with parallel iterator implementations. The modules in the rayon crate mirror std itself: so, e.g., the option module in Rayon contains parallel iterators for the Option type, which is found in the option module of std. Similarly, the collections module in Rayon offers parallel iterator types for the collections from std. You will rarely need to access these submodules unless you need to name iterator types explicitly.

Other questions?

See the Rayon FAQ.

Modules

collections

Parallel iterator types for standard collections

iter

Traits for writing parallel programs using an iterator-style interface

option

Parallel iterator types for options

prelude

The rayon prelude imports the various ParallelIterator traits. The intention is that one can include use rayon::prelude::* and have easy access to the various traits and methods you will need.

range

Parallel iterator types for ranges, the type for values created by a..b expressions

range_inclusive

Parallel iterator types for inclusive ranges, the type for values created by a..=b expressions

result

Parallel iterator types for results

slice

Parallel iterator types for slices

str

Parallel iterator types for strings

vec

Parallel iterator types for vectors (Vec<T>)

Structs

FnContext

Provides the calling context to a closure called by join_context.

Scope

Represents a fork-join scope which can be used to spawn any number of tasks. See scope() for more information.

ScopeFifo

Represents a fork-join scope which can be used to spawn any number of tasks. Those spawned from the same thread are prioritized in relative FIFO order. See scope_fifo() for more information.

ThreadBuilder

Thread builder used for customization via ThreadPoolBuilder::spawn_handler.

ThreadPool

Represents a user created thread-pool.

ThreadPoolBuildError

Error when initializing a thread pool.

ThreadPoolBuilder

Used to create a new ThreadPool or to configure the global rayon thread pool.

Functions

current_num_threads

Returns the number of threads in the current registry. If this code is executing within a Rayon thread-pool, then this will be the number of threads for the thread-pool of the current thread. Otherwise, it will be the number of threads for the global thread-pool.

current_thread_index

If called from a Rayon worker thread, returns the index of that thread within its current pool; if not called from a Rayon thread, returns None.

join

Takes two closures and potentially runs them in parallel. It returns a pair of the results from those closures.

join_context

Identical to join, except that the closures have a parameter that provides context for the way the closure has been called, especially indicating whether they're executing on a different thread than where join_context was called. This will occur if the second job is stolen by a different thread, or if join_context was called from outside the thread pool to begin with.

scope

Create a "fork-join" scope s and invokes the closure with a reference to s. This closure can then spawn asynchronous tasks into s. Those tasks may run asynchronously with respect to the closure; they may themselves spawn additional tasks into s. When the closure returns, it will block until all tasks that have been spawned into s complete.

scope_fifo

Create a "fork-join" scope s with FIFO order, and invokes the closure with a reference to s. This closure can then spawn asynchronous tasks into s. Those tasks may run asynchronously with respect to the closure; they may themselves spawn additional tasks into s. When the closure returns, it will block until all tasks that have been spawned into s complete.

spawn

Fires off a task into the Rayon threadpool in the "static" or "global" scope. Just like a standard thread, this task is not tied to the current stack frame, and hence it cannot hold any references other than those with 'static lifetime. If you want to spawn a task that references stack data, use the scope() function to create a scope.

spawn_fifo

Fires off a task into the Rayon threadpool in the "static" or "global" scope. Just like a standard thread, this task is not tied to the current stack frame, and hence it cannot hold any references other than those with 'static lifetime. If you want to spawn a task that references stack data, use the scope_fifo() function to create a scope.