Module rustc_rayon::iter [−][src]
Expand description
Traits for writing parallel programs using an iterator-style interface
You will rarely need to interact with this module directly unless you have need to name one of the iterator types.
Parallel iterators make it easy to write iterator-like chains that
execute in parallel: typically all you have to do is convert the
first .iter()
(or iter_mut()
, into_iter()
, etc) method into
par_iter()
(or par_iter_mut()
, into_par_iter()
, etc). For
example, to compute the sum of the squares of a sequence of
integers, one might write:
use rayon::prelude::*;
fn sum_of_squares(input: &[i32]) -> i32 {
input.par_iter()
.map(|i| i * i)
.sum()
}
Or, to increment all the integers in a slice, you could write:
use rayon::prelude::*;
fn increment_all(input: &mut [i32]) {
input.par_iter_mut()
.for_each(|p| *p += 1);
}
To use parallel iterators, first import the traits by adding
something like use rayon::prelude::*
to your module. You can
then call par_iter
, par_iter_mut
, or into_par_iter
to get a
parallel iterator. Like a regular iterator, parallel
iterators work by first constructing a computation and then
executing it.
In addition to par_iter()
and friends, some types offer other
ways to create (or consume) parallel iterators:
- Slices (
&[T]
,&mut [T]
) offer methods likepar_split
andpar_windows
, as well as various parallel sorting operations. See theParallelSlice
trait for the full list. - Strings (
&str
) offer methods likepar_split
andpar_lines
. See theParallelString
trait for the full list. - Various collections offer
par_extend
, which grows a collection given a parallel iterator. (If you don’t have a collection to extend, you can usecollect()
to create a new one from scratch.)
To see the full range of methods available on parallel iterators,
check out the ParallelIterator
and IndexedParallelIterator
traits.
If you’d like to build a custom parallel iterator, or to write your own combinator, then check out the split function and the plumbing module.
Note: Several of the ParallelIterator
methods rely on a Try
trait which
has been deliberately obscured from the public API. This trait is intended
to mirror the unstable std::ops::Try
with implementations for Option
and
Result
, where Some
/Ok
values will let those iterators continue, but
None
/Err
values will exit early.
A note about object safety: It is currently not possible to wrap
a ParallelIterator
(or any trait that depends on it) using a
Box<dyn ParallelIterator>
or other kind of dynamic allocation,
because ParallelIterator
is not object-safe.
(This keeps the implementation simpler and allows extra optimizations.)
Modules
Traits and functions used to implement parallel iteration. These are
low-level details – users of parallel iterators should not need to
interact with them directly. See the plumbing
README for a general overview.
Structs
Chain
is an iterator that joins b
after a
in one continuous iterator.
This struct is created by the chain()
method on ParallelIterator
Chunks
is an iterator that groups elements of an underlying iterator.
Cloned
is an iterator that clones the elements of an underlying iterator.
Copied
is an iterator that copies the elements of an underlying iterator.
Iterator adaptor for the empty()
function.
Enumerate
is an iterator that returns the current count along with the element.
This struct is created by the enumerate()
method on IndexedParallelIterator
Filter
takes a predicate filter_op
and filters out elements that match.
This struct is created by the filter()
method on ParallelIterator
FilterMap
creates an iterator that uses filter_op
to both filter and map elements.
This struct is created by the filter_map()
method on ParallelIterator
.
FlatMap
maps each element to an iterator, then flattens these iterators together.
This struct is created by the flat_map()
method on ParallelIterator
Flatten
turns each element to an iterator, then flattens these iterators
together. This struct is created by the flatten()
method on
ParallelIterator
.
Fold
is an iterator that applies a function over an iterator producing a single value.
This struct is created by the fold()
method on ParallelIterator
FoldWith
is an iterator that applies a function over an iterator producing a single value.
This struct is created by the fold_with()
method on ParallelIterator
Inspect
is an iterator that calls a function with a reference to each
element before yielding it.
Interleave
is an iterator that interleaves elements of iterators
i
and j
in one continuous iterator. This struct is created by
the interleave()
method on IndexedParallelIterator
InterleaveShortest
is an iterator that works similarly to
Interleave
, but this version stops returning elements once one
of the iterators run out.
Intersperse
is an iterator that inserts a particular item between each
item of the adapted iterator. This struct is created by the
intersperse()
method on ParallelIterator
IterBridge
is a parallel iterator that wraps a sequential iterator.
Map
is an iterator that transforms the elements of an underlying iterator.
MapInit
is an iterator that transforms the elements of an underlying iterator.
MapWith
is an iterator that transforms the elements of an underlying iterator.
MaxLen
is an iterator that imposes a maximum length on iterator splits.
This struct is created by the max_len()
method on IndexedParallelIterator
MinLen
is an iterator that imposes a minimum length on iterator splits.
This struct is created by the min_len()
method on IndexedParallelIterator
MultiZip
is an iterator that zips up a tuple of parallel iterators to
produce tuples of their items.
Iterator adaptor for the once()
function.
PanicFuse
is an adaptor that wraps an iterator with a fuse in case
of panics, to halt all threads as soon as possible.
Iterator adaptor for the repeat()
function.
Iterator adaptor for the repeatn()
function.
Rev
is an iterator that produces elements in reverse order. This struct
is created by the rev()
method on IndexedParallelIterator
Skip
is an iterator that skips over the first n
elements.
This struct is created by the skip()
method on IndexedParallelIterator
Split
is a parallel iterator using arbitrary data and a splitting function.
This struct is created by the split()
function.
Take
is an iterator that iterates over the first n
elements.
This struct is created by the take()
method on IndexedParallelIterator
TryFold
is an iterator that applies a function over an iterator producing a single value.
This struct is created by the try_fold()
method on ParallelIterator
TryFoldWith
is an iterator that applies a function over an iterator producing a single value.
This struct is created by the try_fold_with()
method on ParallelIterator
Update
is an iterator that mutates the elements of an
underlying iterator before they are yielded.
WhileSome
is an iterator that yields the Some
elements of an iterator,
halting as soon as any None
is produced.
Zip
is an iterator that zips up a
and b
into a single iterator
of pairs. This struct is created by the zip()
method on
IndexedParallelIterator
An IndexedParallelIterator
that iterates over two parallel iterators of equal
length simultaneously.
Enums
The enum Either
with variants Left
and Right
is a general purpose
sum type with two cases.
Traits
FromParallelIterator
implements the creation of a collection
from a ParallelIterator
. By implementing
FromParallelIterator
for a given type, you define how it will be
created from an iterator.
An iterator that supports “random access” to its data, meaning that you can split it at arbitrary indices and draw data from those points.
IntoParallelIterator
implements the conversion to a ParallelIterator
.
IntoParallelRefIterator
implements the conversion to a
ParallelIterator
, providing shared references to the data.
IntoParallelRefMutIterator
implements the conversion to a
ParallelIterator
, providing mutable references to the data.
Conversion trait to convert an Iterator
to a ParallelIterator
.
ParallelExtend
extends an existing collection with items from a ParallelIterator
.
Parallel version of the standard iterator trait.
Functions
Creates a parallel iterator that produces nothing.
Creates a parallel iterator that produces an element exactly once.
Creates a parallel iterator that endlessly repeats elt
(by
cloning it). Note that this iterator has “infinite” length, so
typically you would want to use zip
or take
or some other
means to shorten it, or consider using
the repeatn()
function instead.
Creates a parallel iterator that produces n
repeats of elt
(by cloning it).
The split
function takes arbitrary data and a closure that knows how to
split it, and turns this into a ParallelIterator
.