Key paths and case paths provide a safe, composable way to access and modify nested data in Rust. Inspired by Swiftβs KeyPath / CasePath system, this feature rich crate lets you work with struct fields and enum variants as first-class values.
- β Readable/Writable keypaths for struct fields
- β
Failable keypaths for
Option<T>chains (_fr/_fw) - β Enum CasePaths (readable and writable prisms)
- β Composition across structs, options and enum cases
- β Iteration helpers over collections via keypaths
- β
Proc-macros:
#[derive(Keypaths)]for structs/tuple-structs and enums,#[derive(Casepaths)]for enums
[dependencies]
key-paths-core = "0.8"
key-paths-derive = "0.1"See examples/ for many runnable samples. Below are a few highlights.
use key_paths_core::KeyPaths;
use key_paths_derive::{Casepaths, Keypaths};
#[derive(Debug, Keypaths)]
struct SomeComplexStruct {
scsf: Option<SomeOtherStruct>,
// scsf2: Option<SomeOtherStruct>,
}
impl SomeComplexStruct {
fn new() -> Self {
Self {
scsf: Some(SomeOtherStruct {
sosf: OneMoreStruct {
omsf: String::from("no value for now"),
omse: SomeEnum::B(DarkStruct { dsf: String::from("dark field") }),
},
}),
}
}
}
#[derive(Debug, Keypaths)]
struct SomeOtherStruct {
sosf: OneMoreStruct,
}
#[derive(Debug, Casepaths)]
enum SomeEnum {
A(String),
B(DarkStruct)
}
#[derive(Debug, Keypaths)]
struct OneMoreStruct {
omsf: String,
omse: SomeEnum
}
#[derive(Debug, Keypaths)]
struct DarkStruct {
dsf: String
}
fn main() {
let op = SomeComplexStruct::scsf_fw()
.then(SomeOtherStruct::sosf_fw())
.then(OneMoreStruct::omse_fw())
.then(SomeEnum::b_case_w())
.then(DarkStruct::dsf_fw());
let mut instance = SomeComplexStruct::new();
let omsf = op.get_mut(&mut instance);
*omsf.unwrap() =
String::from("we can change the field with the other way unlocked by keypaths");
println!("instance = {:?}", instance);
}use key_paths_core::KeyPaths;
#[derive(Debug)]
struct Size {
width: u32,
height: u32,
}
#[derive(Debug)]
enum Color {
Red,
Green,
Blue,
Other(RGBU8),
}
#[derive(Debug)]
struct RGBU8(u8, u8, u8);
#[derive(Debug)]
struct ABox {
name: String,
size: Size,
color: Color,
}
#[derive(Debug)]
struct Rectangle {
size: Size,
name: String,
}
fn main() {
let mut a_box = ABox {
name: String::from("A box"),
size: Size {
width: 10,
height: 20,
},
color: Color::Other(
RGBU8(10, 20, 30)
),
};
let color_kp: KeyPaths<ABox, Color> = KeyPaths::failable_writable(|x: &mut ABox| Some(&mut x.color));
let case_path = KeyPaths::writable_enum(
{
|v| Color::Other(v)
},
|p: &Color| match p {
Color::Other(rgb) => Some(rgb),
_ => None,
},
|p: &mut Color| match p {
Color::Other(rgb) => Some(rgb),
_ => None,
},
);
println!("{:?}", a_box);
let color_rgb_kp = color_kp.compose(case_path);
if let Some(value) = color_rgb_kp.get_mut(&mut a_box) {
*value = RGBU8(0, 0, 0);
}
println!("{:?}", a_box);
}
/*
ABox { name: "A box", size: Size { width: 10, height: 20 }, color: Other(RGBU8(10, 20, 30)) }
ABox { name: "A box", size: Size { width: 10, height: 20 }, color: Other(RGBU8(0, 0, 0)) }
*/- π type-safe property paths
- π Swift KeyPath documentation
- π Elm Architecture & Functional Lenses
- π Rust Macros Book
- π Category Theory in FP (for intuition)
- Avoids repetitive
match/.chains. - Encourages compositional design.
- Plays well with DDD (Domain-Driven Design) and Actor-based systems.
- Useful for reflection-like behaviors in Rust (without unsafe).
- Compose across structs, options and enum cases
- Derive macros for automatic keypath generation
- Optional chaining with failable keypaths
- [] Derive macros for complex multi-field enum variants
- Mozilla Public License 2.0
