Lift enum variants to the type-level by simply adding the attribute tylift.
This comes in handy for type-level programming.
Important note: This library provides mechanisms nearly identical to the experimental feature const generics which has not been fully implemented yet. See respective section below on why this crate stays relevant nonetheless.
The attribute promotes variants to their own types which will are by default not namespaced.
The enum type becomes a kind emulated by a trait. In the process, the original type gets replaced.
In Rust, the syntax of trait bounds (:) beautifully mirror the syntax of type annotations.
Thus, the snippet B: Bool can also be read as "type parameter B of kind Bool".
As of right now, there is no automated way to reify the lifted variants. Variants can hold unnamed fields of types of given kind. Lifted enum types cannot be generic over kinds. The promoted variants inherit the visibility of the lifted enum. Traits representing kinds are sealed, which means nobody is able to add new types to the kind.
Attributes (notably documentation comments) applied to the item itself and its variants will be preserved. On the other hand, attributes placed in front of fields of a variant (constructor arguments) will not be translated and thus have no effect. Explicit discriminants are ignored, too.
Expanded code works in #![no_std]-environments.
```rust use tylift::tylift; use std::marker::PhantomData;
pub enum Mode { Safe, Fast, }
pub struct Text
impl
impl Text
impl Text
fn main() {
let safe = Text::
Add these lines to your Cargo.toml:
toml
[dependencies]
tylift = "0.3.4"
Compability with older rustc versions is currently not verified. Older versions of this crate (≤ 0.3.2) only
relied on features of rustc 1.32. So you might want to check them out.
Code before the macro expansion:
```rust use tylift::tylift;
pub enum Bool { False, True, }
pub(crate) enum Nat { Zero, Succ(Nat), }
enum BinaryTree { Leaf, Branch(BinaryTree, Nat, BinaryTree), }
Powerpub enum Power { On, Off, }
directionpub(crate) enum Direction { Up, Down, } ```
And after expansion below. It's partially hygienic, identifiers prefixed with double underscores are unhygienic.
The reason is current API limitations of proc_macro.
```rust use tylift::tylift;
pub use _kindBool::; mod __kind_Bool { use super::; pub trait Bool: sealed::Sealed {} pub struct False(::core::marker::PhantomData<()>); impl Bool for False {} pub struct True(::core::marker::PhantomData<()>); impl Bool for True {} mod sealed { use super::*; pub trait Sealed {} impl Sealed for False {} impl Sealed for True {} } }
pub(crate) use _kindNat::;
mod __kind_Nat {
use super::;
pub trait Nat: sealed::Sealed {}
pub struct Zero(::core::marker::PhantomData<()>);
impl Nat for Zero {}
pub struct Succ
use _kindBinaryTree::;
mod __kind_BinaryTree {
use super::;
pub trait BinaryTree: sealed::Sealed {}
pub struct Leaf(::core::marker::PhantomData<()>);
impl BinaryTree for Leaf {}
pub struct Branch
pub mod Power { use super::; pub trait Power: sealed::Sealed {} pub struct On(::core::marker::PhantomData<()>); impl Power for On {} pub struct Off(::core::marker::PhantomData<()>); impl Power for Off {} mod sealed { use super::; pub trait Sealed {} impl Sealed for On {} impl Sealed for Off {} } }
pub(crate) mod direction { use super::; pub trait Direction: sealed::Sealed {} pub struct Up(::core::marker::PhantomData<()>); impl Direction for Up {} pub struct Down(::core::marker::PhantomData<()>); impl Direction for Down {} mod sealed { use super::; pub trait Sealed {} impl Sealed for Up {} impl Sealed for Down {} } } ```
``rust
// for kindBool` from above
type Not = ::Result;
trait NotImpl: Bool { type Result: Bool; }
impl NotImpl for False { type Result = True; }
impl NotImpl for True { type Result = False; }
// for kind Nat from above
type Add
Advantages of this crate over const generics:
span_errors once proc_macro_diagnostic becomes stable