5 releases
0.2.2 | Mar 26, 2020 |
---|---|
0.2.1 | Mar 26, 2020 |
0.1.3 | Mar 17, 2020 |
#852 in Asynchronous
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tokio-lk version - 0.2.2
Tokio-lk
** A lock-by-id future for tokio **
Lock
future will return Guard
once it gets the mutex.
to hold the lock in subsequent futures, move the Guard
inside the future output.
to release the mutex, simply drops the Guard
from your future chain.
Each Lock
object is assigned an unique id.
The uniqueness is promised until USIZE_MAX of id gets generated.
Make sure old Locks are dropped before you generate new Locks above this amount.
Changelog
- 0.2.2 - minor fix on cargo.toml to let docs.rs generate documentation of all features
- 0.2.1 - add features for using either hashbrown or dashmap. add
KeyPool
for hashmap abstraction. - 0.2.0 - bump to futures 0.3 and tokio 0.2
- 0.1.3 - now depends on dashmap to replace
RwLock<HashMap>
- 0.1.2 - first stable version
Example:
use std::time::{Duration, Instant};
use tokio_lk::*;
use futures::prelude::*;
use tokio::runtime::Runtime;
use tokio::time::delay_for;
let mut rt = Runtime::new().unwrap();
let map = KeyPool::<MapType>::new();
let now = Instant::now();
// this task will compete with task2 for lock at id 1
let task1 = async {
let _guard = Lock::fnew(1, map.clone()).await.await;
delay_for(Duration::from_millis(100)).await;
};
// this task will compete with task1 for lock at id 1
let task2 = async {
let _guard = Lock::fnew(1, map.clone()).await.await;
delay_for(Duration::from_millis(100)).await;
};
// no other task compete for lock at id 2
let task3 = async {
let _guard = Lock::fnew(2, map.clone()).await.await;
delay_for(Duration::from_millis(100)).await;
};
rt.block_on(async { tokio::join!(task1, task2, task3) });
Features
- hashbrown
- provides
MapType
as a type alias ofhashbrown::HashMap
for KeyPool initialization
- provides
- dashmap
- provides
DashMapType
as a type alias ofdashmap::DashMap
for KeyPool initialization
- provides
- default: hashbrown
- all: both
hashbrown
anddashmap
Benchmark
to run the benchmark, execute the following command in the prompt:
cargo bench -- --nocapture
The lock1000_parallel
benchmark is to run 1000 futures locked by a single lock to update the
counter.
The lock1000_serial
benchmark is to run run similar operations in a single thread.
Currently our implementation is about 4~5 times slower than the single threaded version.
License
Licensed under
- MIT license (LICENSE-MIT or https://opensource.org/licences/MIT)
Contribution
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in the work by you, shall be licensed as above, without any additional terms or conditions.
Dependencies
~7.5MB
~128K SLoC