//! A crate for safe and ergonomic [pin-projection]. //! //! # Examples //! //! [`#[pin_project]`][`pin_project`] attribute creates projection types //! covering all the fields of struct or enum. //! //! ```rust //! use std::pin::Pin; //! //! use pin_project::pin_project; //! //! #[pin_project] //! struct Struct { //! #[pin] //! pinned: T, //! unpinned: U, //! } //! //! impl Struct { //! fn method(self: Pin<&mut Self>) { //! let this = self.project(); //! let _: Pin<&mut T> = this.pinned; // Pinned reference to the field //! let _: &mut U = this.unpinned; // Normal reference to the field //! } //! } //! ``` //! //! [*code like this will be generated*][struct-default-expanded] //! //! To use `#[pin_project]` on enums, you need to name the projection type //! returned from the method. //! //! ```rust //! use std::pin::Pin; //! //! use pin_project::pin_project; //! //! #[pin_project(project = EnumProj)] //! enum Enum { //! Pinned(#[pin] T), //! Unpinned(U), //! } //! //! impl Enum { //! fn method(self: Pin<&mut Self>) { //! match self.project() { //! EnumProj::Pinned(x) => { //! let _: Pin<&mut T> = x; //! } //! EnumProj::Unpinned(y) => { //! let _: &mut U = y; //! } //! } //! } //! } //! ``` //! //! [*code like this will be generated*][enum-default-expanded] //! //! See [`#[pin_project]`][`pin_project`] attribute for more details, and //! see [examples] directory for more examples and generated code. //! //! [examples]: https://github.com/taiki-e/pin-project/blob/HEAD/examples/README.md //! [enum-default-expanded]: https://github.com/taiki-e/pin-project/blob/HEAD/examples/enum-default-expanded.rs //! [pin-projection]: core::pin#projections-and-structural-pinning //! [struct-default-expanded]: https://github.com/taiki-e/pin-project/blob/HEAD/examples/struct-default-expanded.rs #![no_std] #![doc(test( no_crate_inject, attr( deny(warnings, rust_2018_idioms, single_use_lifetimes), allow(dead_code, unused_variables) ) ))] #![warn(future_incompatible, missing_docs, rust_2018_idioms, single_use_lifetimes, unreachable_pub)] #![warn(clippy::default_trait_access)] #![allow(clippy::needless_doctest_main)] // ANDROID: Use std to allow building as a dylib. extern crate std; #[doc(inline)] pub use pin_project_internal::pin_project; #[doc(inline)] pub use pin_project_internal::pinned_drop; /// A trait used for custom implementations of [`Unpin`]. /// /// This trait is used in conjunction with the `UnsafeUnpin` argument to /// the [`#[pin_project]`][macro@pin_project] attribute. /// /// The Rust [`Unpin`] trait is safe to implement - by itself, /// implementing it cannot lead to [undefined behavior][undefined-behavior]. /// Undefined behavior can only occur when other unsafe code is used. /// /// It turns out that using pin projections, which requires unsafe code, /// imposes additional requirements on an [`Unpin`] impl. Normally, all of this /// unsafety is contained within this crate, ensuring that it's impossible for /// you to violate any of the guarantees required by pin projection. /// /// However, things change if you want to provide a custom [`Unpin`] impl /// for your `#[pin_project]` type. As stated in [the Rust /// documentation][pin-projection], you must be sure to only implement [`Unpin`] /// when all of your `#[pin]` fields (i.e. structurally pinned fields) are also /// [`Unpin`]. /// /// To help highlight this unsafety, the `UnsafeUnpin` trait is provided. /// Implementing this trait is logically equivalent to implementing [`Unpin`] - /// this crate will generate an [`Unpin`] impl for your type that 'forwards' to /// your `UnsafeUnpin` impl. However, this trait is `unsafe` - since your type /// uses structural pinning (otherwise, you wouldn't be using this crate!), /// you must be sure that your `UnsafeUnpin` impls follows all of /// the requirements for an [`Unpin`] impl of a structurally-pinned type. /// /// Note that if you specify `#[pin_project(UnsafeUnpin)]`, but do *not* /// provide an impl of `UnsafeUnpin`, your type will never implement [`Unpin`]. /// This is effectively the same thing as adding a [`PhantomPinned`] to your /// type. /// /// Since this trait is `unsafe`, impls of it will be detected by the /// `unsafe_code` lint, and by tools like [`cargo geiger`][cargo-geiger]. /// /// # Examples /// /// An `UnsafeUnpin` impl which, in addition to requiring that structurally /// pinned fields be [`Unpin`], imposes an additional requirement: /// /// ```rust /// use pin_project::{pin_project, UnsafeUnpin}; /// /// #[pin_project(UnsafeUnpin)] /// struct Struct { /// #[pin] /// field_1: K, /// field_2: V, /// } /// /// unsafe impl UnsafeUnpin for Struct where K: Unpin + Clone {} /// ``` /// /// [`PhantomPinned`]: core::marker::PhantomPinned /// [cargo-geiger]: https://github.com/rust-secure-code/cargo-geiger /// [pin-projection]: core::pin#projections-and-structural-pinning /// [undefined-behavior]: https://doc.rust-lang.org/reference/behavior-considered-undefined.html pub unsafe trait UnsafeUnpin {} // Not public API. #[doc(hidden)] pub mod __private { #[doc(hidden)] pub use core::{ marker::{PhantomData, PhantomPinned, Unpin}, mem::ManuallyDrop, ops::Drop, pin::Pin, ptr, }; #[doc(hidden)] pub use pin_project_internal::__PinProjectInternalDerive; use super::UnsafeUnpin; // An internal trait used for custom implementations of [`Drop`]. // // **Do not call or implement this trait directly.** // // # Why this trait is private and `#[pinned_drop]` attribute is needed? // // Implementing `PinnedDrop::drop` is safe, but calling it is not safe. // This is because destructors can be called multiple times in safe code and // [double dropping is unsound][rust-lang/rust#62360]. // // Ideally, it would be desirable to be able to forbid manual calls in // the same way as [`Drop::drop`], but the library cannot do it. So, by using // macros and replacing them with private traits, // this crate prevent users from calling `PinnedDrop::drop` in safe code. // // This allows implementing [`Drop`] safely using `#[pinned_drop]`. // Also by using the [`drop`] function just like dropping a type that directly // implements [`Drop`], can drop safely a type that implements `PinnedDrop`. // // [rust-lang/rust#62360]: https://github.com/rust-lang/rust/pull/62360 #[doc(hidden)] pub trait PinnedDrop { #[doc(hidden)] unsafe fn drop(self: Pin<&mut Self>); } // This is an internal helper struct used by `pin-project-internal`. // This allows us to force an error if the user tries to provide // a regular `Unpin` impl when they specify the `UnsafeUnpin` argument. // This is why we need Wrapper: // // Supposed we have the following code: // // ```rust // #[pin_project(UnsafeUnpin)] // struct MyStruct { // #[pin] field: T // } // // impl Unpin for MyStruct where MyStruct: UnsafeUnpin {} // generated by pin-project-internal // impl Unpin for MyStruct where T: Copy // written by the user // ``` // // We want this code to be rejected - the user is completely bypassing // `UnsafeUnpin`, and providing an unsound Unpin impl in safe code! // // Unfortunately, the Rust compiler will accept the above code. // Because MyStruct is declared in the same crate as the user-provided impl, // the compiler will notice that `MyStruct: UnsafeUnpin` never holds. // // The solution is to introduce the `Wrapper` struct, which is defined // in the `pin-project` crate. // // We now have code that looks like this: // // ```rust // impl Unpin for MyStruct where Wrapper>: UnsafeUnpin {} // generated by pin-project-internal // impl Unpin for MyStruct where T: Copy // written by the user // ``` // // We also have `unsafe impl UnsafeUnpin for Wrapper where T: UnsafeUnpin {}` // in the `pin-project` crate. // // Now, our generated impl has a bound involving a type defined in another // crate - Wrapper. This will cause rust to conservatively assume that // `Wrapper>: UnsafeUnpin` holds, in the interest of preserving // forwards compatibility (in case such an impl is added for Wrapper in // a new version of the crate). // // This will cause rust to reject any other `Unpin` impls for MyStruct, // since it will assume that our generated impl could potentially apply in // any situation. // // This achieves the desired effect - when the user writes // `#[pin_project(UnsafeUnpin)]`, the user must either provide no impl of // `UnsafeUnpin` (which is equivalent to making the type never implement // Unpin), or provide an impl of `UnsafeUnpin`. It is impossible for them to // provide an impl of `Unpin` #[doc(hidden)] pub struct Wrapper<'a, T: ?Sized>(PhantomData<&'a ()>, T); unsafe impl UnsafeUnpin for Wrapper<'_, T> where T: UnsafeUnpin {} // This is an internal helper struct used by `pin-project-internal`. // // See https://github.com/taiki-e/pin-project/pull/53 for more details. #[doc(hidden)] pub struct AlwaysUnpin<'a, T>(PhantomData<&'a ()>, PhantomData); impl Unpin for AlwaysUnpin<'_, T> {} // This is an internal helper used to ensure a value is dropped. #[doc(hidden)] pub struct UnsafeDropInPlaceGuard(pub *mut T); impl Drop for UnsafeDropInPlaceGuard { fn drop(&mut self) { unsafe { ptr::drop_in_place(self.0); } } } // This is an internal helper used to ensure a value is overwritten without // its destructor being called. #[doc(hidden)] pub struct UnsafeOverwriteGuard { pub value: ManuallyDrop, pub target: *mut T, } impl Drop for UnsafeOverwriteGuard { fn drop(&mut self) { unsafe { ptr::write(self.target, ptr::read(&*self.value)); } } } }