Lib.rs

#counted #borrow #counting #type #mutable #bc #value

bcount

Borrow counted types

by Guillaume Fraux

1 unstable release

Uses old Rust 2015

0.1.0 Nov 25, 2015

#5 in #bc

MIT license

8KB
75 lines

bcount

Build Status code coverage

This crate provide type for counting mutable borrow of a value. The Bc<T> type is a small wrapper on top of a value of type T which count the number of time the value has been mutably borrowed since it's creation.

Documentation is here!

Why?

If you want to cache an expensive computation result, you need to have information about wether the parameters of the computation have changed or not. You can use a hash for that, but this have two shortcomings:

  • You need to have values which implement the Hash trait. Some useful types like f64 do not;
  • You need to have a cheap way to compute the hash.

If computing the hash is harder or more expensive than doing the computation, you are doomed. Or you can use Bc<T> which will give you information about the number of borrow since the last computation. If this number have changed, then it is very likely that the value have changed, and that you need to redo your computation.

Limitations

This can not be used a real hash algorithm, because the number of borrow can change even if the value do not.

If more than usize::MAX borrow occurs, the borrow counter will be wrapped around to 0, and will not panic because of the overflow.

Performances

The Bc type do not introduce notable overhead when borrowing. Here are the benchmark results comparing a raw value and a borrow counted value:

running 2 tests
   test counted ... bench:       1,061 ns/iter (+/- 12)
   test raw     ... bench:       1,059 ns/iter (+/- 16)

Using the number of borrow as hash value is way faster than doing the real hash. Here is a benchmark for [usize; 10000] values:

running 2 tests
   test counted ... bench:          22 ns/iter (+/- 1)
   test raw     ... bench:      49,011 ns/iter (+/- 755)

You can see the code for these benchmarks on Github.

Example

extern crate bcount;
use bcount::Bc;

fn main() {
    let mut a = Bc::new(vec![63, 67, 42]);
    assert_eq!(a.count(), 0);

    do_work(&mut a);
    do_work(&mut a);
    do_work(&mut a);
    do_work(&mut a);

    assert_eq!(a.count(), 4);

    *a = vec![3, 4, 5];
    assert_eq!(a.count(), 5);
}

fn do_work(_: &mut [usize]) {
    // Whatever, nobody cares
}

Licence

MIT

No runtime deps