no_std
no alloc support- No proc macros
- No unsafe code
[dependencies]
crosstrait = "0.1"
Then use the register!{ Type => Trait }
declarative macro and the [Cast
] traits.
For embedded, the linker needs to be informed of the type registry.
use core::any::Any;
use crosstrait::{Cast, Castable, CastableRef, entry, register, REGISTRY, Registry};
// Some example traits to play with
use core::{fmt::{Debug, Formatter, Write}, ops::{AddAssign, SubAssign}};
// Add types and trait implementations to the default registry
// Implementation status is verified at compile time
register! { i32 => dyn Debug }
// Registering foreign types and traits works fine
// Serialization/deserialization of `dyn Any` is a major use case
// register! { i32 => dyn erased_serde::Serialize }
// If a type is not Send + Sync, it can't cast as Arc.
// `no_arc` accounts for that
register! { Formatter => dyn Write, no_arc }
// Check for trait impl registration on concrete type
assert!(i32::castable::<dyn Debug>());
// Check for trait impl registration on Any
let any: &dyn Any = &42i32;
assert!(any.castable::<dyn Debug>());
// SubAssign<i32> is impl'd for i32 but not registered
assert!(!any.castable::<dyn SubAssign<i32>>());
// Cast ref
let a: &dyn Debug = any.cast().unwrap();
println!("42 = {a:?}");
// Cast mut
let mut value = 5i32;
let any: &mut dyn Any = &mut value;
let v: &mut dyn AddAssign<i32> = any.cast().unwrap();
*v += 3;
assert_eq!(value, 5 + 3);
// Cast Box
let any: Box<dyn Any> = Box::new(0i32);
let _: Box<dyn Debug> = any.cast().unwrap();
// Cast Rc
use std::rc::Rc;
let any: Rc<dyn Any> = Rc::new(0i32);
let _: Rc<dyn Debug> = any.cast().unwrap();
// Cast Arc
use std::sync::Arc;
let any: Arc<dyn Any + Sync + Send> = Arc::new(0i32);
let _: Arc<dyn Debug> = any.cast().unwrap();
// Explicit registry usage
let any: &dyn Any = &0i32;
let _: &dyn Debug = REGISTRY.cast_ref(any).unwrap();
// Custom non-static registry
let myreg = Registry::new(&[entry!(i32 => dyn Debug)]);
let _: &dyn Debug = myreg.cast_ref(any).unwrap();
// Autotraits and type/const generics are distinct
let a: Option<&(dyn Debug + Sync)> = any.cast();
assert!(a.is_none());
// Registration in the default registry can happen anywhere
// in any order in any downstream crate
register! { i32 => dyn AddAssign<i32> }
intertrait
: source of ideas forcrosstrait
, similar goals, similar features,std
, proc macrosminiconf
: provides several ways to getdyn Any
from nodes in heterogeneous nested data structures,no_std
, no allocerased_serde
:Serialize
/Serializer
/Deserializer
trait objectsdowncast
/downcast-rs
: supportdyn Trait -> Type
linkme
: linker magic used here to build distributed static type registry
Currently the size of the global registry on no_std
is fixed and arbitrarily set to 128 entries.
Since adding any combination of auto traits (in particular Send
, Sync
, Unpin
) to a trait results in a distinct trait,
all relevant combinations of traits plus auto traits needs to be registered explicitly.
A custom non-static [Registry
] can be built and used explicitly but the Cast
traits will not use it.
The unstable used_with_arg
feature may be required to keep the linker from optimizing away the items in the registry.
Enable it using the used_linker
crate feature and use a nightly toolchain.
The registry keys are size_of::<[TypeId; 2]>() = 32
bytes large.
Hashing and key storage/comparison is not tuned for performance.