txrx

Crates.iotxrx
lib.rstxrx
version0.1.0
sourcesrc
created_at2021-08-20 17:53:22.169724
updated_at2021-08-20 17:53:22.169724
descriptionA Rust take on the C++ unified executors proposal
homepage
repositoryhttps://github.com/AndWass/txrx
max_upload_size
id440071
size66,737
Andreas W (AndWass)

documentation

README

TXRX

A very basic Sender/Receiver implementation inspired by the C++ P2300R1 ISO paper.

API Documentation for master

Examples

All examples are located in the txrx-examples directory.

Hello world

use txrx::traits::Scheduler;
use txrx::SenderExt;

fn start_runner(runner: txrx::manual_executor::Runner) {
    std::thread::spawn(move || loop {
        runner.run_one();
    });
}

fn main() {
    let executor = txrx::manual_executor::ManualExecutor::new();
    start_runner(executor.runner());

    let begin = executor.scheduler().schedule();
    let hi_again = begin.map(|_| {
        println!("Hello world! Have an int");
        13
    });
    let add_42 = hi_again.map(|x| x + 42);

    let result = add_42.sync_wait();
    println!("Result: {:?}", result);
}

Using Rayon:

use txrx_rayon::GlobalScheduler;
use txrx::SenderExt;
use txrx::traits::Scheduler;

fn main() {
    let begin = GlobalScheduler.schedule();
    let hi_again = begin.map(|_| {
        println!("Hello rayon! Have an int");
        13
    });
    let add_42 = hi_again.map(|x| x + 42);

    let result = add_42.sync_wait();
    println!("Result: {:?}", result);
}

Async-std and Rayon

use std::time::Duration;
use txrx::traits::{Scheduler, Sender};
use txrx::SenderExt;

// Create some work that takes some time, using sleep to simulate long-running
// compute work.
fn build_work<Sched>(
    mut scheduler: Sched,
    time: u64,
    id: i32,
) -> impl Sender<Output=i32, Error=()>
    where
        Sched: Scheduler,
        Sched::Sender: Sender<Error=()>,
{
    scheduler.schedule().map(move |_| {
        println!("Rayon {}: Starting some intensive work!", id);
        std::thread::sleep(Duration::from_secs(time));
        println!("Rayon {}: Done", id);
        42 + id
    })
}

// Simulate doing something periodically using a timer task.
async fn timer_task() {
    for i in 0..5 {
        println!("Timer task sleeping {}", i);
        async_std::task::sleep(Duration::from_secs(1)).await;
    }
}

async fn async_main() {
    println!("Async hello world!");

    let scheduler = txrx_rayon::GlobalScheduler::new();

    let work = build_work(scheduler.clone(), 3, 1)
        .ensure_started()
        .when_both(build_work(scheduler.clone(), 2, 2).ensure_started());

    println!("Rayon work started, launching timer task");
    let timer_task = async_std::task::spawn(timer_task());

    let result = work.into_awaitable().await; // Await result computed on rayon global thread pool
    println!("Rayon work complete: {:?}", result);

    timer_task.await; // Await the timer task to complete as well

    println!("All work done!");
}

fn main() {
    async_std::task::block_on(async_main());
}
Commit count: 37

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