Crates.io | downcast-rs |
lib.rs | downcast-rs |
version | 1.2.1 |
source | src |
created_at | 2015-12-16 03:50:40.714078 |
updated_at | 2024-04-07 00:40:26.467757 |
description | Trait object downcasting support using only safe Rust. It supports type parameters, associated types, and type constraints. |
homepage | |
repository | https://github.com/marcianx/downcast-rs |
max_upload_size | |
id | 3673 |
size | 49,076 |
Rust enums are great for types where all variations are known beforehand. But a container of user-defined types requires an open-ended type like a trait object. Some applications may want to cast these trait objects back to the original concrete types to access additional functionality and performant inlined implementations.
downcast-rs
adds this downcasting support to trait objects using only safe
Rust. It supports type parameters, associated types, and constraints.
Add the following to your Cargo.toml
:
[dependencies]
downcast-rs = "1.2.1"
This crate is no_std
compatible. To use it without std
:
[dependencies]
downcast-rs = { version = "1.2.0", default-features = false }
To make a trait downcastable, make it extend either downcast::Downcast
or
downcast::DowncastSync
and invoke impl_downcast!
on it as in the examples
below.
Since 1.2.0, the minimum supported Rust version is 1.36 due to needing stable access to alloc.
trait Trait: Downcast {}
impl_downcast!(Trait);
// Also supports downcasting `Arc`-ed trait objects by extending `DowncastSync`
// and starting `impl_downcast!` with `sync`.
trait TraitSync: DowncastSync {}
impl_downcast!(sync TraitSync);
// With type parameters.
trait TraitGeneric1<T>: Downcast {}
impl_downcast!(TraitGeneric1<T>);
// With associated types.
trait TraitGeneric2: Downcast { type G; type H; }
impl_downcast!(TraitGeneric2 assoc G, H);
// With constraints on types.
trait TraitGeneric3<T: Copy>: Downcast {
type H: Clone;
}
impl_downcast!(TraitGeneric3<T> assoc H where T: Copy, H: Clone);
// With concrete types.
trait TraitConcrete1<T: Copy>: Downcast {}
impl_downcast!(concrete TraitConcrete1<u32>);
trait TraitConcrete2<T: Copy>: Downcast { type H; }
impl_downcast!(concrete TraitConcrete2<u32> assoc H=f64);
// Import macro via `macro_use` pre-1.30.
#[macro_use]
extern crate downcast_rs;
use downcast_rs::DowncastSync;
// To create a trait with downcasting methods, extend `Downcast` or `DowncastSync`
// and run `impl_downcast!()` on the trait.
trait Base: DowncastSync {}
impl_downcast!(sync Base); // `sync` => also produce `Arc` downcasts.
// Concrete types implementing Base.
#[derive(Debug)]
struct Foo(u32);
impl Base for Foo {}
#[derive(Debug)]
struct Bar(f64);
impl Base for Bar {}
fn main() {
// Create a trait object.
let mut base: Box<Base> = Box::new(Foo(42));
// Try sequential downcasts.
if let Some(foo) = base.downcast_ref::<Foo>() {
assert_eq!(foo.0, 42);
} else if let Some(bar) = base.downcast_ref::<Bar>() {
assert_eq!(bar.0, 42.0);
}
assert!(base.is::<Foo>());
// Fail to convert `Box<Base>` into `Box<Bar>`.
let res = base.downcast::<Bar>();
assert!(res.is_err());
let base = res.unwrap_err();
// Convert `Box<Base>` into `Box<Foo>`.
assert_eq!(42, base.downcast::<Foo>().map_err(|_| "Shouldn't happen.").unwrap().0);
// Also works with `Rc`.
let mut rc: Rc<Base> = Rc::new(Foo(42));
assert_eq!(42, rc.downcast_rc::<Foo>().map_err(|_| "Shouldn't happen.").unwrap().0);
// Since this trait is `Sync`, it also supports `Arc` downcasts.
let mut arc: Arc<Base> = Arc::new(Foo(42));
assert_eq!(42, arc.downcast_arc::<Foo>().map_err(|_| "Shouldn't happen.").unwrap().0);
}
// Can call macro via namespace since rust 1.30.
extern crate downcast_rs;
use downcast_rs::Downcast;
// To create a trait with downcasting methods, extend `Downcast` or `DowncastSync`
// and run `impl_downcast!()` on the trait.
trait Base<T: Clone>: Downcast { type H: Copy; }
downcast_rs::impl_downcast!(Base<T> assoc H where T: Clone, H: Copy);
// or: impl_downcast!(concrete Base<u32> assoc H=f32)
// Concrete types implementing Base.
struct Foo(u32);
impl Base<u32> for Foo { type H = f32; }
struct Bar(f64);
impl Base<u32> for Bar { type H = f32; }
fn main() {
// Create a trait object.
let mut base: Box<Base<u32, H=f32>> = Box::new(Bar(42.0));
// Try sequential downcasts.
if let Some(foo) = base.downcast_ref::<Foo>() {
assert_eq!(foo.0, 42);
} else if let Some(bar) = base.downcast_ref::<Bar>() {
assert_eq!(bar.0, 42.0);
}
assert!(base.is::<Bar>());
}
This library is a thoroughly-tested boilerplate generator, is code complete, has no unsafe, and is vanishingly unlikely to have any security issues to patch.
Copyright 2020, Ashish Myles (maintainer) and contributors. This software is dual-licensed under the MIT and Apache 2.0 licenses.
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in the work by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without any additional terms or conditions.