Run closures in parallel.
This is a simple primitive for spawning threads in bulk and waiting for them to complete. Threads are allowed to borrow local variables from the main thread.
Run two threads that increment a number:
use easy_parallel::Parallel;
use std::sync::Mutex;
let mut m = Mutex::new(0);
Parallel::new()
.add(|| *m.lock().unwrap() += 1)
.add(|| *m.lock().unwrap() += 1)
.run();
assert_eq!(*m.get_mut().unwrap(), 2);
Square each number of a vector on a different thread:
use easy_parallel::Parallel;
let v = vec![10, 20, 30];
let squares = Parallel::new()
.each(0..v.len(), |i| v[i] * v[i])
.run();
assert_eq!(squares, [100, 400, 900]);
Compute the sum of numbers in an array:
use easy_parallel::Parallel;
fn par_sum(v: &[i32]) -> i32 {
const THRESHOLD: usize = 2;
if v.len() <= THRESHOLD {
v.iter().copied().sum()
} else {
let half = (v.len() + 1) / 2;
let sums = Parallel::new().each(v.chunks(half), par_sum).run();
sums.into_iter().sum()
}
}
let v = [1, 25, -4, 10, 8];
assert_eq!(par_sum(&v), 40);
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