Parallel Tasks
Mutate the elements of an array in parallel
The example uses the rayon crate, which is a data parallelism library for Rust.
rayon provides the par_iter_mut method for any parallel iterable data type.
This is an iterator-like chain that potentially executes in parallel.
use rayon::prelude::*; fn main() { let mut arr = [0, 7, 9, 11]; arr.par_iter_mut().for_each(|p| *p -= 1); println!("{:?}", arr); }
Test in parallel if any or all elements of a collection match a given predicate
This example demonstrates using the rayon::any and rayon::all methods, which are parallelized counterparts to std::any and std::all. rayon::any checks in parallel whether any element of the iterator matches the predicate, and returns as soon as one is found. rayon::all checks in parallel whether all elements of the iterator match the predicate, and returns as soon as a non-matching element is found.
use rayon::prelude::*; fn main() { let mut vec = vec![2, 4, 6, 8]; assert!(!vec.par_iter().any(|n| (*n % 2) != 0)); assert!(vec.par_iter().all(|n| (*n % 2) == 0)); assert!(!vec.par_iter().any(|n| *n > 8 )); assert!(vec.par_iter().all(|n| *n <= 8 )); vec.push(9); assert!(vec.par_iter().any(|n| (*n % 2) != 0)); assert!(!vec.par_iter().all(|n| (*n % 2) == 0)); assert!(vec.par_iter().any(|n| *n > 8 )); assert!(!vec.par_iter().all(|n| *n <= 8 )); }
Search items using given predicate in parallel
This example uses rayon::find_any and par_iter to search a vector in
parallel for an element satisfying the predicate in the given closure.
If there are multiple elements satisfying the predicate defined in the closure
argument of rayon::find_any, rayon returns the first one found, not
necessarily the first one.
Also note that the argument to the closure is a reference to a reference
(&&x). See the discussion on std::find for additional details.
use rayon::prelude::*; fn main() { let v = vec![6, 2, 1, 9, 3, 8, 11]; let f1 = v.par_iter().find_any(|&&x| x == 9); let f2 = v.par_iter().find_any(|&&x| x % 2 == 0 && x > 6); let f3 = v.par_iter().find_any(|&&x| x > 8); assert_eq!(f1, Some(&9)); assert_eq!(f2, Some(&8)); assert!(f3 > Some(&8)); }
Sort a vector in parallel
This example will sort in parallel a vector of Strings.
Allocate a vector of empty Strings. par_iter_mut().for_each populates random
values in parallel. Although multiple options
exist to sort an enumerable data type, par_sort_unstable
is usually faster than stable sorting algorithms.
use rand::{Rng, thread_rng}; use rand::distributions::Alphanumeric; use rayon::prelude::*; fn main() { let mut vec = vec![String::new(); 100_000]; vec.par_iter_mut().for_each(|p| { let mut rng = thread_rng(); *p = (0..5).map(|_| rng.sample(&Alphanumeric)).collect() }); vec.par_sort_unstable(); }
Map-reduce in parallel
This example uses rayon::filter, rayon::map, and rayon::reduce
to calculate the average age of Person objects whose age is over 30.
rayon::filter returns elements from a collection that satisfy the given
predicate. rayon::map performs an operation on every element, creating a
new iteration, and rayon::reduce performs an operation given the previous
reduction and the current element. Also shows use of rayon::sum,
which has the same result as the reduce operation in this example.
use rayon::prelude::*; struct Person { age: u32, } fn main() { let v: Vec<Person> = vec![ Person { age: 23 }, Person { age: 19 }, Person { age: 42 }, Person { age: 17 }, Person { age: 17 }, Person { age: 31 }, Person { age: 30 }, ]; let num_over_30 = v.par_iter().filter(|&x| x.age > 30).count() as f32; let sum_over_30 = v.par_iter() .map(|x| x.age) .filter(|&x| x > 30) .reduce(|| 0, |x, y| x + y); let alt_sum_30: u32 = v.par_iter() .map(|x| x.age) .filter(|&x| x > 30) .sum(); let avg_over_30 = sum_over_30 as f32 / num_over_30; let alt_avg_over_30 = alt_sum_30 as f32/ num_over_30; assert!((avg_over_30 - alt_avg_over_30).abs() < std::f32::EPSILON); println!("The average age of people older than 30 is {}", avg_over_30); }
Generate jpg thumbnails in parallel
This example generates thumbnails for all .jpg files in the current directory
then saves them in a new folder called thumbnails.
glob::glob_with finds jpeg files in current directory. rayon resizes
images in parallel using par_iter calling DynamicImage::resize.
use error_chain::error_chain; use std::path::Path; use std::fs::create_dir_all; use error_chain::ChainedError; use glob::{glob_with, MatchOptions}; use image::{FilterType, ImageError}; use rayon::prelude::*; error_chain! { foreign_links { Image(ImageError); Io(std::io::Error); Glob(glob::PatternError); } } fn main() -> Result<()> { let options: MatchOptions = Default::default(); let files: Vec<_> = glob_with("*.jpg", options)? .filter_map(|x| x.ok()) .collect(); if files.len() == 0 { error_chain::bail!("No .jpg files found in current directory"); } let thumb_dir = "thumbnails"; create_dir_all(thumb_dir)?; println!("Saving {} thumbnails into '{}'...", files.len(), thumb_dir); let image_failures: Vec<_> = files .par_iter() .map(|path| { make_thumbnail(path, thumb_dir, 300) .map_err(|e| e.chain_err(|| path.display().to_string())) }) .filter_map(|x| x.err()) .collect(); image_failures.iter().for_each(|x| println!("{}", x.display_chain())); println!("{} thumbnails saved successfully", files.len() - image_failures.len()); Ok(()) } fn make_thumbnail<PA, PB>(original: PA, thumb_dir: PB, longest_edge: u32) -> Result<()> where PA: AsRef<Path>, PB: AsRef<Path>, { let img = image::open(original.as_ref())?; let file_path = thumb_dir.as_ref().join(original); Ok(img.resize(longest_edge, longest_edge, FilterType::Nearest) .save(file_path)?) }