Crates.io | lens-rs |
lib.rs | lens-rs |
version | 0.3.2 |
source | src |
created_at | 2021-03-20 05:44:33.069051 |
updated_at | 2021-05-07 17:27:51.616531 |
description | lens implemented in rust |
homepage | |
repository | https://github.com/TOETOE55/lens-rs |
max_upload_size | |
id | 371278 |
size | 36,654 |
lens implemented in rust
Review
optics describes how to construct a single value.Traversal
can access the multiple substructures.Prism
can access the substructure may exist.Lens
can access the substructure must exist.see the guide
access the substructure
use lens_rs::*;
fn test() -> Option<()> {
let mut nested: Result<Result<_, ()>, ()> = Review::review(optics!(Ok.Ok), (1,2));
*x.preview_mut(optics!(Ok.Ok._0))? += 1;
assert_eq!(nested.preview(optics!(Ok.Ok._0))?, 2);
let mut x = (1, (2, (3, 4)));
*x.view_mut(optics!(_1._1._1)) *= 2;
assert_eq!(x.view(optics!(_1._1._1)), 8);
let mut x: (_, Result<_, ()>) = (1, Ok((2, 3)));
*x.preview_mut(optics!(_1.Ok._1))? *= 2;
assert_eq!(x.preview(optics!(_1.Ok._1))?, 6);
let mut x = (1, vec![Some((2, 3)), None]);
x
.traverse_mut(optics!(_1._mapped.Some._0))
.into_iter()
.for_each(|i| *i += 1);
assert_eq!(x.traverse(optics!(_1._mapped.Some._0)), vec![3]);
Some(())
}
derive lens for data types
use lens_rs::*;
#[derive(Review, Prism, Debug)]
enum AnEnum<T> {
A(T, i32),
#[optic] B(T),
}
#[derive(Lens, Debug)]
struct Foo {
#[optic] a: i32,
#[optic] b: i32,
}
fn test() -> Option<()> {
let x = Review::review(optics!(Some.B), Foo {
a: 3,
b: 2,
});
assert_eq!(x.preview(optics!(Some.B.b))?, 2);
Some(())
}
restrict a type T may have substructure that the type is i32
.
fn bar<Pm, T: Prism<Pm, i32>>(t: &mut T, pm: Pm) {
t.preview_mut(pm).map(|x| *x += 2);
}
fn test() {
let mut complex = (1, Ok((Err(2), 3)));
bar(&mut complex, optics!(_0));
bar(&mut complex, optics!(_1.Err)); // do nothing
bar(&mut complex, optics!(_1.Ok._0.Ok)); // do nothing
bar(&mut complex, optics!(_1.Ok._0.Err));
bar(&mut complex, optics!(_1.Ok._1));
assert_eq!(complex, (3, Ok((Err(4), 5))));
}
restrict a type T has a field .a
.
fn with_field_a<T>(t: &T) -> &str
where
T: LensRef<Optics![a], String> // T must have .a
{
t.view_ref(optics!(a))
}
fn may_has_c<T>(t: T) -> Option<i32>
where
T: PrismRef<Optics![c], i32>, // T may have field c
{
Some(*t.preview_ref(optics!(c))?)
}
let foo = Foo {
a: "this is Foo".to_string(),
b: ()
};
let bar = Bar {
a: "this is Bar".to_string(),
c: 0
};
println!("{}", with_field_a(foo));
println!("{}", with_field_a(bar));
assert_eq!(may_has_c(foo), None);
assert_eq!(may_has_c(bar), Some(0));
assert_eq!(may_has_c(Left(0)), None);
assert_eq!(may_has_c((1, 2, 3)), None);
Now, Lens
has implemented for structx
Add the following in your Cargo.toml
[dependencies]
lens-rs = { version = "0.3", features = [ "structx" ] }
structx = { version = "0.1", features = [ "lens-rs" ] }
[package.metadata.inwelling]
lens-rs_generator = true
structx = true
Enjoy it!
use structx::*;
use lens_rs::*;
let s1 = structx! { height: 1, width: 2 };
let s2 = structx! { height: 3, length: 4 };
assert_eq!(s1.view_ref(optics!(height)), &1);
assert_eq!(s2.view_ref(optics!(height)), &3);
assert_eq!(s1.preview_ref(optics!(width)), Some(&2));
assert_eq!(s2.preview_ref(optics!(width)), None);
add it in Cargo.toml
[package.metadata.inwelling]
lens-rs_generator = true