Crates.io | dana |
lib.rs | dana |
version | 0.4.0 |
source | src |
created_at | 2024-08-05 01:25:02.107765 |
updated_at | 2024-08-10 23:49:43.988816 |
description | Compile-time dimensional analysis via generic types. |
homepage | |
repository | https://github.com/jsdreim/dana |
max_upload_size | |
id | 1325398 |
size | 239,683 |
Compile-time dimensional analysis via generic types.
Dimensional analysis is a method to ensure the correctness of calculations, by tracking the relationships between units.
This can also be useful in working out relationships without having to look them up.
For example, say you have a time t (T
) and a speed v (L/T
), and you want to find a distance d (L
).
Simple algebra can tell you that L
= (L/T)
× T
, and accordingly, d = v × t.
This library implements these checks using Rust's static type system. As a result, any incompatibility between units becomes a compile-time error, ensuring that all code is dimensionally sound.
This function compiles successfully:
use dana::{Quantity, units::{Length, Speed, Time}};
fn speed(dist: Quantity<Length>, time: Quantity<Time>) -> Quantity<Speed> {
dist / time
}
Whereas this function, because Speed
is defined as UnitDiv<Length, Time>
, will not compile, raising a mismatched types
error because the expression is the wrong way around:
use dana::{Quantity, units::{Length, Speed, Time}};
fn speed(dist: Quantity<Length>, time: Quantity<Time>) -> Quantity<Speed> {
time / dist
}
error[E0308]: mismatched types
--> src/main.rs:4:5
|
3 | fn speed(dist: Quantity<Length>, time: Quantity<Time>) -> Quantity<Speed> {
| --------------- expected `Quantity<UnitDiv<Length, Time>>` because of return type
4 | time / dist
| ^^^^^^^^^^^ expected `Quantity<UnitDiv<Length, Time>>`, found `Quantity<UnitDiv<Time, Length>>`
|
= note: expected struct `Quantity<UnitDiv<Length, Time>>`
found struct `Quantity<UnitDiv<Time, Length>>`
See the library documentation for further information.
The following Cargo features are available to enable additional functionality:
chrono
: Support for conversion between Quantity<Time>
and chrono::TimeDelta
rand
: Support for rand
sampling traitsserde
: Support for serde
traitssimd
: Experimental QtySimd
arrays using the unstable portable_simd
feature