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//! This crate is aiming to make work with [variance][var] easier. //! The crate exposes 3 types - [`Invariant<T>`][inv], [`Covariant<T>`][cov] and //! [`Contravariant<T>`][cnt] with corresponding variance over `T` those work //! very similar to [`PhantomData<_>`][phd]. //! //! [var]: https://doc.rust-lang.org/nomicon/subtyping.html //! [inv]: crate::Invariant#type //! [cov]: crate::Covariant#type //! [cnt]: crate::Contravariant#type //! [phd]: core::marker::PhantomData //! //! ## motivation //! //! In rust it's an error to have an unused generic param in struct: //! ```compile_fail //! struct Slice<'a, T> { //! start: *const T, //! end: *const T, //! } //! ``` //! ```text //! error[E0392]: parameter `'a` is never used //! --> src/lib.rs:16:14 //! | //! 3 | struct Slice<'a, T> { //! | ^^ unused parameter //! | //! = help: consider removing `'a`, referring to it in a field, or using a marker such as `std::marker::PhantomData` //! ``` //! This is an error because rust compiler doesn't know should `Slice` be //! covariant, contravariant or invariant over `'a`. (What it means is that //! rustc doesn't know if `Slice<'static, _>` should be `Slice<'a, _>` or vice //! versa or none of this. See [Subtyping and Variance][nom] nomicon chapter for //! better explanation) //! //! To mitigate this issue and control the variance there is a type called //! [`core::marker::PhantomData<T>`][phd]. [`PhantomData<T>`][phd] is a zst type //! that acts like it owns `T`. //! //! However [`PhantomData`][phd] come with a number of issues //! 1. Variance is a hard thing itself, but [`PhantomData`][phd] makes it even //! harder to understand. It's not so clear to understand what does smt like //! `PhantomData<fn(A, B) -> B>` (contravariant over `A` and invariant over //! `B`) //! 2. Sometimes it works badly in const context (see next //! [paragraph](#function-pointers-in-const-fn-are-unstable)) //! //! `phantasm`'s naming somehow helps woth `1.` making code clearer (though //! variance still is a hard-to-understand thing) //! //! [nom]: https://doc.rust-lang.org/nomicon/subtyping.html#subtyping-and-variance //! //! ## function pointers in const fn are unstable //! //! It's common to make a type invariant over `T` with `PhantomData<fn(T) -> T>` //! however, if you've ever tryed to use it in `const fn`, you know that it's //! painfull (see [rust-lang/69459][my_issue] and [rust-lang/67649][or_issue]). //! This crate helps mitigate this issue: //! //! ``` //! use phantasm::Invariant; //! //! pub struct Test<T>(Invariant<T>); //! //! impl<T> Test<T> { //! pub const fn new() -> Self { //! Self(Invariant) // just works //! } //! } //! ``` //! [my_issue]: https://github.com/rust-lang/rust/issues/69459 //! [or_issue]: https://github.com/rust-lang/rust/issues/67649 //! //! ## life //! //! For variance over lifetimes, use `&'l ()`: //! ``` //! use phantasm::{Contravariant, Covariant, Invariant}; //! //! # // yep, I just don't want to copy-paste everything yet another time //! struct Test<'a, 'b, 'c>(Invariant<&'a ()>, Covariant<&'b ()>, Contravariant<&'c ()>); //! ``` //! //! ## comparison operators cannot be chained //! //! Note: you can't use `Invariant<Ty>` as a value (just as //! [`PhantomData`][phd]). To create `Invariant<Ty>` value use `Invariant::<Ty>` //! (same goes for both [`Covariant<T>`][cov] and [`Contravariant<T>`][cnt]) //! //! ```compile_fail //! // won't compile //! let _ = phantasm::Invariant<i32>; //! ``` //! ``` //! use phantasm::Invariant; //! // ok //! let _ = Invariant::<i32>; //! // Both forms are acceptable in type possition //! struct A<T>(Invariant<T>); //! struct B<T>(Invariant<T>); //! ``` //! //! ## many types //! //! When you need to set variance of many types at once, just use typle: //! ``` //! struct Test<A, B>(phantasm::Covariant<(A, B)>); //! ``` #![cfg_attr(not(test), no_std)] // `format!` is used in tests #![allow(type_alias_bounds)] // for :?Sized bound #![deny(missing_docs)] #![forbid(unsafe_code)] /// Marker zst type that is invariant over `T`. /// /// "Invariant" means that given `F<_>`, `Super` and `Sub` (where `Sub` is a /// subtype of `Super`), `F<Sub>` is **not** a subtype of `F<Super>` and vice /// versa - `F<Super>` is **not** a subtype of `F<Sub>` /// /// ## Examples /// /// ``` /// // This struct is invariant over `T` /// struct Test<T>(phantasm::Invariant<T> /* ... */); /// /// let _: Test<i32> = Test(phantasm::Invariant); /// let _ = Test(phantasm::Invariant::<i32>); /// ``` /// /// ```compile_fail /// // `F<Super>` is **not** a subtype of `F<Sub>` /// fn fail<'l>(arg: Invariant<&'l ()>) -> Invariant<&'static ()> { /// arg /// } /// ``` /// ```compile_fail /// // `F<Sub>` is **not** a subtype of `F<Super>` /// fn fail<'l>(arg: Invariant<&'static ()>) -> Invariant<&'l ()> { /// arg /// } /// ``` /// /// ## See also /// /// - [crate docs](crate) /// - [`PhantomData`](core::marker::PhantomData) /// - [Subtyping and Variance](https://doc.rust-lang.org/nomicon/subtyping.html) /// nomicon chapter pub type Invariant<T: ?Sized> = r#impl::Invariant<T>; /// Marker zst type that is covariant over `T`. /// /// "Covariant" means that given `F<_>`, `Super` and `Sub` (where `Sub` is a /// subtype of `Super`), `F<Sub>` **is** a subtype of `F<Super>` (but `F<Super>` /// is **not** a subtype of `F<Sub>`) /// /// ## Examples /// /// ``` /// // This struct is covariant over `T` /// struct Test<T>(phantasm::Covariant<T> /* ... */); /// /// let _: Test<i32> = Test(phantasm::Covariant); /// let _ = Test(phantasm::Covariant::<i32>); /// ``` /// /// ```compile_fail /// use phantasm::Covariant; /// // `F<Super>` is **not** a subtype of `F<Sub>` /// fn fail<'l>(arg: Covariant<&'l ()>) -> Covariant<&'static ()> { /// arg /// } /// ``` /// ``` /// use phantasm::Covariant; /// // `F<Sub>` **is** a subtype of `F<Super>` /// fn pass<'l>(arg: Covariant<&'static ()>) -> Covariant<&'l ()> { /// arg /// } /// ``` /// /// ## See also /// /// - [crate docs](crate) /// - [`PhantomData`](core::marker::PhantomData) /// - [Subtyping and Variance](https://doc.rust-lang.org/nomicon/subtyping.html) /// nomicon chapter pub type Covariant<T: ?Sized> = r#impl::Covariant<T>; /// Marker zst type that is contravariant over `T`. /// /// "Contravariant" means that given `F<_>`, `Super` and `Sub` (where `Sub` is a /// subtype of `Super`), `F<Super>` **is** a subtype of `F<Sub>` (but `F<Sub>` /// is **not** a subtype of `F<Super>`) /// /// ## Examples /// /// ``` /// // This struct is covariant over `T` /// struct Test<T>(phantasm::Contravariant<T> /* ... */); /// /// let _: Test<i32> = Test(phantasm::Contravariant); /// let _ = Test(phantasm::Contravariant::<i32>); /// ``` /// /// ```compile_fail /// use phantasm::Contravariant; /// // `F<Sub>` is **not** a subtype of `F<Super>` /// fn fail<'l>(arg: Contravariant<&'static ()>) -> Contravariant<&'l ()> { /// arg /// } /// ``` /// ``` /// use phantasm::Contravariant; /// // `F<Super>` **is** a subtype of `F<Sub>` /// fn pass<'l>(arg: Contravariant<&'l ()>) -> Contravariant<&'static ()> { /// arg /// } /// ``` /// /// ## See also /// /// - [crate docs](crate) /// - [`PhantomData`](core::marker::PhantomData) /// - [Subtyping and Variance](https://doc.rust-lang.org/nomicon/subtyping.html) /// nomicon chapter pub type Contravariant<T: ?Sized> = r#impl::Contravariant<T>; /// Brings `Invariant`/`Covariant`/`Contravariant` values to scope (in addition /// to types) #[doc(hidden)] pub use crate::r#impl::reexport_hack::*; /// Implementation of the types in the crate. /// /// This is a private module to hide ugly enum implementation details and make /// doc cleaner. mod r#impl { // Note: the idea of the implementation is actually copy-pasted from // dtolnay's ghost <https://docs.rs/ghost/> (I haven't used it to be 0-dep, yep I'am a bad guy) /// A hack to have both type and variant in the same namespace. /// /// This allows to do the following: /// /// ``` /// use phantasm::Invariant; /// /// let _: Invariant<i32> = Invariant::<i32>; // (same goes for `Covariant` and `Contravariant`) /// // |^^^^^^^^^^^^^^ ^^^^^^^^^^^^^^^^\ /// // *--- type value (variant) /// ``` /// /// (idk how it works, but it works) pub mod reexport_hack { pub use super::{Contravariant::Contravariant, Covariant::Covariant, Invariant::Invariant}; } /// Replacement for `!` aka never that will never be stabilized. #[derive(Copy, Clone, Debug, Ord, PartialOrd, Eq, PartialEq, Hash)] pub enum Never {} /// For documentation see [`Invariant`](crate::Invariant#type)'s docs. #[derive(Copy, Clone, Debug, Ord, PartialOrd, Eq, PartialEq, Hash)] pub enum Invariant<T: ?Sized> { /// Uninhibited variant that uses `T`. #[doc(hidden)] #[deprecated( since = "0.1.0", note = "you shouldn't use `Invariant` as a enum and/or use `__Phantom` variant of it. \ This variant is only used to use the generic parameter. It's implementation \ detail and may change at any time." )] __Phantom(core::marker::PhantomData<fn(T) -> T>, Never), // /^^^^^^^^^^ // `fn(T) -> U` is **contra**variant // over `T` and covariant over `U`, so // `fn(T) -> T` is invariant over `T` /// The only possible [`Invariant<_>`][inv] value. For type see /// [`Invariant`][inv] docs. /// /// [inv]: crate::Invariant#type Invariant, } /// For documentation see [`Covariant`](crate::Covariant#type)'s docs. #[derive(Copy, Clone, Debug, Ord, PartialOrd, Eq, PartialEq, Hash)] pub enum Covariant<T: ?Sized> { /// Uninhibited variant that uses `T`. #[doc(hidden)] #[deprecated( since = "0.1.0", note = "you shouldn't use `Covariant` as a enum and/or use `__Phantom` variant of it. \ This variant is only used to use the generic parameter. It's implementation \ detail and may change at any time." )] __Phantom(core::marker::PhantomData<fn(()) -> T>, Never), // /^^^^^^^^^^^ // `fn(_) -> U` is covariant over `U` /// The only possible [`Covariant<_>`][cov] value. For type see /// [`Covariant`][cov] docs. /// /// [cov]: crate::Covariant#type Covariant, } /// For documentation see [`Contravariant`](crate::Contravariant#type)'s /// docs. #[derive(Copy, Clone, Debug, Ord, PartialOrd, Eq, PartialEq, Hash)] pub enum Contravariant<T: ?Sized> { /// Uninhibited variant that uses `T`. #[doc(hidden)] #[deprecated( since = "0.1.0", note = "you shouldn't use `Contravariant` as a enum and/or use `__Phantom` variant of \ it. This variant is only used to use the generic parameter. It's \ implementation detail and may change at any time." )] __Phantom(core::marker::PhantomData<fn(T) -> ()>, Never), // /^^^^^^^^^^^ // `fn(T) -> _` is **contra**variant // over `T` /// The only possible [`Contravariant<_>`][cnt] value. For type see /// [`Contravariant`][cnt] docs. /// /// [cnt]: crate::Contravariant#type Contravariant, } } #[cfg(any(test, doctest /* needed for compile_fail tests */))] mod tests { use crate::{Contravariant, Covariant, Invariant}; use core::mem::size_of; type T = [u8]; // Just an example type. Can be any type actually. /// Tests that `Invariant` can be created in const context. const _: Invariant<T> = Invariant::<T>; /// Tests that `Covariant` can be created in const context. const _: Covariant<T> = Covariant::<T>; /// Tests that `Contravariant` can be created in const context. const _: Contravariant<T> = Contravariant::<T>; #[test] fn zstness() { assert_eq!(size_of::<Invariant<T>>(), 0); assert_eq!(size_of::<Covariant<T>>(), 0); assert_eq!(size_of::<Contravariant<T>>(), 0); } #[test] fn debug() { assert_eq!(format!("{:?}", Invariant::<T>), "Invariant"); assert_eq!(format!("{:?}", Covariant::<T>), "Covariant"); assert_eq!(format!("{:?}", Contravariant::<T>), "Contravariant"); } /// ```compile_fail /// use phantasm::Invariant; /// fn fail<'l>(arg: Invariant<&'l ()>) -> Invariant<&'static ()> { /// arg /// } /// ``` /// ```compile_fail /// use phantasm::Invariant; /// fn fail<'l>(arg: Invariant<&'static ()>) -> Invariant<&'l ()> { /// arg /// } /// ``` #[allow(dead_code)] fn invariance() {} /// ```compile_fail /// use phantasm::Covariant; /// fn fail<'l>(arg: Covariant<&'l ()>) -> Covariant<&'static ()> { /// arg /// } /// ``` #[allow(dead_code)] fn covariance<'l>(arg: Covariant<&'static ()>) -> Covariant<&'l ()> { // This coercion is only legal because the lifetime parameter is // covariant. If it were contravariant or invariant, // this would not compile. arg } /// ```compile_fail /// use phantasm::Contravariant; /// fn fail<'l>(arg: Contravariant<&'static ()>) -> Contravariant<&'l ()> { /// arg /// } /// ``` #[allow(dead_code)] fn contravariance<'l>(arg: Contravariant<&'l ()>) -> Contravariant<&'static ()> { // This coercion is only legal because the lifetime parameter is // contravariant. If it were covariant or invariant, // this would not compile. arg } }