/*! A lightweight version of [pin-project] written with declarative macros. ## Usage Add this to your `Cargo.toml`: ```toml [dependencies] pin-project-lite = "0.2" ``` *Compiler support: requires rustc 1.37+* ## Examples [`pin_project!`] macro creates a projection type covering all the fields of struct. ```rust use std::pin::Pin; use pin_project_lite::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 } } ``` 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_lite::pin_project; pin_project! { #[project = EnumProj] enum Enum { Variant { #[pin] pinned: T, unpinned: U }, } } impl Enum { fn method(self: Pin<&mut Self>) { match self.project() { EnumProj::Variant { pinned, unpinned } => { let _: Pin<&mut T> = pinned; let _: &mut U = unpinned; } } } } ``` ## [pin-project] vs pin-project-lite Here are some similarities and differences compared to [pin-project]. ### Similar: Safety pin-project-lite guarantees safety in much the same way as [pin-project]. Both are completely safe unless you write other unsafe code. ### Different: Minimal design This library does not tackle as expansive of a range of use cases as [pin-project] does. If your use case is not already covered, please use [pin-project]. ### Different: No proc-macro related dependencies This is the **only** reason to use this crate. However, **if you already have proc-macro related dependencies in your crate's dependency graph, there is no benefit from using this crate.** (Note: There is almost no difference in the amount of code generated between [pin-project] and pin-project-lite.) ### Different: No useful error messages This macro does not handle any invalid input. So error messages are not to be useful in most cases. If you do need useful error messages, then upon error you can pass the same input to [pin-project] to receive a helpful description of the compile error. ### Different: No support for custom Unpin implementation pin-project supports this by [`UnsafeUnpin`][unsafe-unpin] and [`!Unpin`][not-unpin]. ### Different: No support for tuple structs and tuple variants pin-project supports this. [not-unpin]: https://docs.rs/pin-project/1/pin_project/attr.pin_project.html#unpin [pin-project]: https://github.com/taiki-e/pin-project [unsafe-unpin]: https://docs.rs/pin-project/1/pin_project/attr.pin_project.html#unsafeunpin */ #![no_std] #![doc(test( no_crate_inject, attr( deny(warnings, rust_2018_idioms, single_use_lifetimes), allow(dead_code, unused_variables) ) ))] #![warn(rust_2018_idioms, single_use_lifetimes, unreachable_pub)] #![warn( clippy::pedantic, // lints for public library clippy::alloc_instead_of_core, clippy::exhaustive_enums, clippy::exhaustive_structs, clippy::std_instead_of_alloc, clippy::std_instead_of_core, // lints that help writing unsafe code clippy::as_ptr_cast_mut, clippy::default_union_representation, clippy::trailing_empty_array, clippy::transmute_undefined_repr, clippy::undocumented_unsafe_blocks, )] /// A macro that creates a projection type covering all the fields of struct. /// /// This macro creates a projection type according to the following rules: /// /// - For the field that uses `#[pin]` attribute, makes the pinned reference to the field. /// - For the other fields, makes the unpinned reference to the field. /// /// And the following methods are implemented on the original type: /// /// ```rust /// # use std::pin::Pin; /// # type Projection<'a> = &'a (); /// # type ProjectionRef<'a> = &'a (); /// # trait Dox { /// fn project(self: Pin<&mut Self>) -> Projection<'_>; /// fn project_ref(self: Pin<&Self>) -> ProjectionRef<'_>; /// # } /// ``` /// /// By passing an attribute with the same name as the method to the macro, /// you can name the projection type returned from the method. This allows you /// to use pattern matching on the projected types. /// /// ```rust /// # use pin_project_lite::pin_project; /// # use std::pin::Pin; /// pin_project! { /// #[project = EnumProj] /// enum Enum { /// Variant { #[pin] field: T }, /// } /// } /// /// impl Enum { /// fn method(self: Pin<&mut Self>) { /// let this: EnumProj<'_, T> = self.project(); /// match this { /// EnumProj::Variant { field } => { /// let _: Pin<&mut T> = field; /// } /// } /// } /// } /// ``` /// /// By passing the `#[project_replace = MyProjReplace]` attribute you may create an additional /// method which allows the contents of `Pin<&mut Self>` to be replaced while simultaneously moving /// out all unpinned fields in `Self`. /// /// ```rust /// # use std::pin::Pin; /// # type MyProjReplace = (); /// # trait Dox { /// fn project_replace(self: Pin<&mut Self>, replacement: Self) -> MyProjReplace; /// # } /// ``` /// /// Also, note that the projection types returned by `project` and `project_ref` have /// an additional lifetime at the beginning of generics. /// /// ```text /// let this: EnumProj<'_, T> = self.project(); /// ^^ /// ``` /// /// The visibility of the projected types and projection methods is based on the /// original type. However, if the visibility of the original type is `pub`, the /// visibility of the projected types and the projection methods is downgraded /// to `pub(crate)`. /// /// # Safety /// /// `pin_project!` macro guarantees safety in much the same way as [pin-project] crate. /// Both are completely safe unless you write other unsafe code. /// /// See [pin-project] crate for more details. /// /// # Examples /// /// ```rust /// use std::pin::Pin; /// /// use pin_project_lite::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 /// } /// } /// ``` /// /// 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_lite::pin_project; /// /// pin_project! { /// #[project = EnumProj] /// enum Enum { /// Struct { /// #[pin] /// field: T, /// }, /// Unit, /// } /// } /// /// impl Enum { /// fn method(self: Pin<&mut Self>) { /// match self.project() { /// EnumProj::Struct { field } => { /// let _: Pin<&mut T> = field; /// } /// EnumProj::Unit => {} /// } /// } /// } /// ``` /// /// If you want to call the `project()` method multiple times or later use the /// original [`Pin`] type, it needs to use [`.as_mut()`][`Pin::as_mut`] to avoid /// consuming the [`Pin`]. /// /// ```rust /// use std::pin::Pin; /// /// use pin_project_lite::pin_project; /// /// pin_project! { /// struct Struct { /// #[pin] /// field: T, /// } /// } /// /// impl Struct { /// fn call_project_twice(mut self: Pin<&mut Self>) { /// // `project` consumes `self`, so reborrow the `Pin<&mut Self>` via `as_mut`. /// self.as_mut().project(); /// self.as_mut().project(); /// } /// } /// ``` /// /// # `!Unpin` /// /// If you want to ensure that [`Unpin`] is not implemented, use `#[pin]` /// attribute for a [`PhantomPinned`] field. /// /// ```rust /// use std::marker::PhantomPinned; /// /// use pin_project_lite::pin_project; /// /// pin_project! { /// struct Struct { /// field: T, /// #[pin] // <------ This `#[pin]` is required to make `Struct` to `!Unpin`. /// _pin: PhantomPinned, /// } /// } /// ``` /// /// Note that using [`PhantomPinned`] without `#[pin]` attribute has no effect. /// /// [`PhantomPinned`]: core::marker::PhantomPinned /// [`Pin::as_mut`]: core::pin::Pin::as_mut /// [`Pin`]: core::pin::Pin /// [pin-project]: https://github.com/taiki-e/pin-project #[macro_export] macro_rules! pin_project { ($($tt:tt)*) => { $crate::__pin_project_internal! { [][][][] $($tt)* } }; } // limitations: // - no support for tuple structs and tuple variant (wontfix). // - no support for multiple trait/lifetime bounds. // - no support for `Self` in where clauses. (wontfix) // - no support for overlapping lifetime names. (wontfix) // - no interoperability with other field attributes. // - no useful error messages. (wontfix) // etc... #[doc(hidden)] #[macro_export] macro_rules! __pin_project_expand { ( [$($proj_mut_ident:ident)?] [$($proj_ref_ident:ident)?] [$($proj_replace_ident:ident)?] [$proj_vis:vis] [$(#[$attrs:meta])* $vis:vis $struct_ty_ident:ident $ident:ident] [$($def_generics:tt)*] [$($impl_generics:tt)*] [$($ty_generics:tt)*] [$(where $($where_clause:tt)*)?] { $($body_data:tt)* } $(impl $($pinned_drop:tt)*)? ) => { $crate::__pin_project_reconstruct! { [$(#[$attrs])* $vis $struct_ty_ident $ident] [$($def_generics)*] [$($impl_generics)*] [$($ty_generics)*] [$(where $($where_clause)*)?] { $($body_data)* } } $crate::__pin_project_make_proj_ty! { [$($proj_mut_ident)?] [$proj_vis $struct_ty_ident $ident] [__pin_project_make_proj_field_mut] [$($impl_generics)*] [$($ty_generics)*] [$(where $($where_clause)*)?] { $($body_data)* } } $crate::__pin_project_make_proj_ty! { [$($proj_ref_ident)?] [$proj_vis $struct_ty_ident $ident] [__pin_project_make_proj_field_ref] [$($impl_generics)*] [$($ty_generics)*] [$(where $($where_clause)*)?] { $($body_data)* } } $crate::__pin_project_make_proj_replace_ty! { [$($proj_replace_ident)?] [$proj_vis $struct_ty_ident] [__pin_project_make_proj_field_replace] [$($impl_generics)*] [$($ty_generics)*] [$(where $($where_clause)*)?] { $($body_data)* } } $crate::__pin_project_constant! { [$(#[$attrs])* $vis $struct_ty_ident $ident] [$($proj_mut_ident)?] [$($proj_ref_ident)?] [$($proj_replace_ident)?] [$proj_vis] [$($def_generics)*] [$($impl_generics)*] [$($ty_generics)*] [$(where $($where_clause)*)?] { $($body_data)* } $(impl $($pinned_drop)*)? } }; } #[doc(hidden)] #[macro_export] macro_rules! __pin_project_constant { ( [$(#[$attrs:meta])* $vis:vis struct $ident:ident] [$($proj_mut_ident:ident)?] [$($proj_ref_ident:ident)?] [$($proj_replace_ident:ident)?] [$proj_vis:vis] [$($def_generics:tt)*] [$($impl_generics:tt)*] [$($ty_generics:tt)*] [$(where $($where_clause:tt)*)?] { $( $(#[$pin:ident])? $field_vis:vis $field:ident: $field_ty:ty ),+ $(,)? } $(impl $($pinned_drop:tt)*)? ) => { #[allow(explicit_outlives_requirements)] // https://github.com/rust-lang/rust/issues/60993 #[allow(single_use_lifetimes)] // https://github.com/rust-lang/rust/issues/55058 // This lint warns of `clippy::*` generated by external macros. // We allow this lint for compatibility with older compilers. #[allow(clippy::unknown_clippy_lints)] #[allow(clippy::redundant_pub_crate)] // This lint warns `pub(crate)` field in private struct. #[allow(clippy::used_underscore_binding)] const _: () = { $crate::__pin_project_make_proj_ty! { [$($proj_mut_ident)? Projection] [$proj_vis struct $ident] [__pin_project_make_proj_field_mut] [$($impl_generics)*] [$($ty_generics)*] [$(where $($where_clause)*)?] { $( $(#[$pin])? $field_vis $field: $field_ty ),+ } } $crate::__pin_project_make_proj_ty! { [$($proj_ref_ident)? ProjectionRef] [$proj_vis struct $ident] [__pin_project_make_proj_field_ref] [$($impl_generics)*] [$($ty_generics)*] [$(where $($where_clause)*)?] { $( $(#[$pin])? $field_vis $field: $field_ty ),+ } } impl <$($impl_generics)*> $ident <$($ty_generics)*> $(where $($where_clause)*)? { $crate::__pin_project_struct_make_proj_method! { [$($proj_mut_ident)? Projection] [$proj_vis] [project get_unchecked_mut mut] [$($ty_generics)*] { $( $(#[$pin])? $field_vis $field ),+ } } $crate::__pin_project_struct_make_proj_method! { [$($proj_ref_ident)? ProjectionRef] [$proj_vis] [project_ref get_ref] [$($ty_generics)*] { $( $(#[$pin])? $field_vis $field ),+ } } $crate::__pin_project_struct_make_proj_replace_method! { [$($proj_replace_ident)?] [$proj_vis] [ProjectionReplace] [$($ty_generics)*] { $( $(#[$pin])? $field_vis $field ),+ } } } $crate::__pin_project_make_unpin_impl! { [$vis $ident] [$($impl_generics)*] [$($ty_generics)*] [$(where $($where_clause)*)?] $( $field: $crate::__pin_project_make_unpin_bound!( $(#[$pin])? $field_ty ) ),+ } $crate::__pin_project_make_drop_impl! { [$ident] [$($impl_generics)*] [$($ty_generics)*] [$(where $($where_clause)*)?] $(impl $($pinned_drop)*)? } // Ensure that it's impossible to use pin projections on a #[repr(packed)] struct. // // Taking a reference to a packed field is UB, and applying // `#[forbid(unaligned_references)]` makes sure that doing this is a hard error. // // If the struct ends up having #[repr(packed)] applied somehow, // this will generate an (unfriendly) error message. Under all reasonable // circumstances, we'll detect the #[repr(packed)] attribute, and generate // a much nicer error above. // // See https://github.com/taiki-e/pin-project/pull/34 for more details. // // Note: // - Lint-based tricks aren't perfect, but they're much better than nothing: // https://github.com/taiki-e/pin-project-lite/issues/26 // // - Enable both unaligned_references and safe_packed_borrows lints // because unaligned_references lint does not exist in older compilers: // https://github.com/taiki-e/pin-project-lite/pull/55 // https://github.com/rust-lang/rust/pull/82525 #[forbid(unaligned_references, safe_packed_borrows)] fn __assert_not_repr_packed <$($impl_generics)*> (this: &$ident <$($ty_generics)*>) $(where $($where_clause)*)? { $( let _ = &this.$field; )+ } }; }; ( [$(#[$attrs:meta])* $vis:vis enum $ident:ident] [$($proj_mut_ident:ident)?] [$($proj_ref_ident:ident)?] [$($proj_replace_ident:ident)?] [$proj_vis:vis] [$($def_generics:tt)*] [$($impl_generics:tt)*] [$($ty_generics:tt)*] [$(where $($where_clause:tt)*)?] { $( $(#[$variant_attrs:meta])* $variant:ident $({ $( $(#[$pin:ident])? $field:ident: $field_ty:ty ),+ $(,)? })? ),+ $(,)? } $(impl $($pinned_drop:tt)*)? ) => { #[allow(single_use_lifetimes)] // https://github.com/rust-lang/rust/issues/55058 // This lint warns of `clippy::*` generated by external macros. // We allow this lint for compatibility with older compilers. #[allow(clippy::unknown_clippy_lints)] #[allow(clippy::used_underscore_binding)] const _: () = { impl <$($impl_generics)*> $ident <$($ty_generics)*> $(where $($where_clause)*)? { $crate::__pin_project_enum_make_proj_method! { [$($proj_mut_ident)?] [$proj_vis] [project get_unchecked_mut mut] [$($ty_generics)*] { $( $variant $({ $( $(#[$pin])? $field ),+ })? ),+ } } $crate::__pin_project_enum_make_proj_method! { [$($proj_ref_ident)?] [$proj_vis] [project_ref get_ref] [$($ty_generics)*] { $( $variant $({ $( $(#[$pin])? $field ),+ })? ),+ } } $crate::__pin_project_enum_make_proj_replace_method! { [$($proj_replace_ident)?] [$proj_vis] [$($ty_generics)*] { $( $variant $({ $( $(#[$pin])? $field ),+ })? ),+ } } } $crate::__pin_project_make_unpin_impl! { [$vis $ident] [$($impl_generics)*] [$($ty_generics)*] [$(where $($where_clause)*)?] $( $variant: ($( $( $crate::__pin_project_make_unpin_bound!( $(#[$pin])? $field_ty ) ),+ )?) ),+ } $crate::__pin_project_make_drop_impl! { [$ident] [$($impl_generics)*] [$($ty_generics)*] [$(where $($where_clause)*)?] $(impl $($pinned_drop)*)? } // We don't need to check for '#[repr(packed)]', // since it does not apply to enums. }; }; } #[doc(hidden)] #[macro_export] macro_rules! __pin_project_reconstruct { ( [$(#[$attrs:meta])* $vis:vis struct $ident:ident] [$($def_generics:tt)*] [$($impl_generics:tt)*] [$($ty_generics:tt)*] [$(where $($where_clause:tt)*)?] { $( $(#[$pin:ident])? $field_vis:vis $field:ident: $field_ty:ty ),+ $(,)? } ) => { $(#[$attrs])* $vis struct $ident $($def_generics)* $(where $($where_clause)*)? { $( $field_vis $field: $field_ty ),+ } }; ( [$(#[$attrs:meta])* $vis:vis enum $ident:ident] [$($def_generics:tt)*] [$($impl_generics:tt)*] [$($ty_generics:tt)*] [$(where $($where_clause:tt)*)?] { $( $(#[$variant_attrs:meta])* $variant:ident $({ $( $(#[$pin:ident])? $field:ident: $field_ty:ty ),+ $(,)? })? ),+ $(,)? } ) => { $(#[$attrs])* $vis enum $ident $($def_generics)* $(where $($where_clause)*)? { $( $(#[$variant_attrs])* $variant $({ $( $field: $field_ty ),+ })? ),+ } }; } #[doc(hidden)] #[macro_export] macro_rules! __pin_project_make_proj_ty { ([] $($field:tt)*) => {}; ( [$proj_ty_ident:ident $default_ident:ident] [$proj_vis:vis struct $ident:ident] $($field:tt)* ) => {}; ( [$proj_ty_ident:ident] [$proj_vis:vis struct $ident:ident] [$__pin_project_make_proj_field:ident] [$($impl_generics:tt)*] [$($ty_generics:tt)*] [$(where $($where_clause:tt)*)?] { $( $(#[$pin:ident])? $field_vis:vis $field:ident: $field_ty:ty ),+ $(,)? } ) => { $crate::__pin_project_make_proj_ty_body! { [$proj_ty_ident] [$proj_vis struct $ident] [$($impl_generics)*] [$($ty_generics)*] [$(where $($where_clause)*)?] [ $( $field_vis $field: $crate::$__pin_project_make_proj_field!( $(#[$pin])? $field_ty ) ),+ ] } }; ( [$proj_ty_ident:ident] [$proj_vis:vis enum $ident:ident] [$__pin_project_make_proj_field:ident] [$($impl_generics:tt)*] [$($ty_generics:tt)*] [$(where $($where_clause:tt)*)?] { $( $(#[$variant_attrs:meta])* $variant:ident $({ $( $(#[$pin:ident])? $field:ident: $field_ty:ty ),+ $(,)? })? ),+ $(,)? } ) => { $crate::__pin_project_make_proj_ty_body! { [$proj_ty_ident] [$proj_vis enum $ident] [$($impl_generics)*] [$($ty_generics)*] [$(where $($where_clause)*)?] [ $( $variant $({ $( $field: $crate::$__pin_project_make_proj_field!( $(#[$pin])? $field_ty ) ),+ })? ),+ ] } }; } #[doc(hidden)] #[macro_export] macro_rules! __pin_project_make_proj_ty_body { ( [$proj_ty_ident:ident] [$proj_vis:vis $struct_ty_ident:ident $ident:ident] [$($impl_generics:tt)*] [$($ty_generics:tt)*] [$(where $($where_clause:tt)*)?] [$($body_data:tt)+] ) => { #[allow(dead_code)] // This lint warns unused fields/variants. #[allow(single_use_lifetimes)] // https://github.com/rust-lang/rust/issues/55058 // This lint warns of `clippy::*` generated by external macros. // We allow this lint for compatibility with older compilers. #[allow(clippy::unknown_clippy_lints)] #[allow(clippy::mut_mut)] // This lint warns `&mut &mut `. (only needed for project) #[allow(clippy::redundant_pub_crate)] // This lint warns `pub(crate)` field in private struct. #[allow(clippy::ref_option_ref)] // This lint warns `&Option<&>`. (only needed for project_ref) #[allow(clippy::type_repetition_in_bounds)] // https://github.com/rust-lang/rust-clippy/issues/4326 $proj_vis $struct_ty_ident $proj_ty_ident <'__pin, $($impl_generics)*> where $ident <$($ty_generics)*>: '__pin $(, $($where_clause)*)? { $($body_data)+ } }; } #[doc(hidden)] #[macro_export] macro_rules! __pin_project_make_proj_replace_ty { ([] $($field:tt)*) => {}; ( [$proj_ty_ident:ident] [$proj_vis:vis struct] [$__pin_project_make_proj_field:ident] [$($impl_generics:tt)*] [$($ty_generics:tt)*] [$(where $($where_clause:tt)*)?] { $( $(#[$pin:ident])? $field_vis:vis $field:ident: $field_ty:ty ),+ $(,)? } ) => { $crate::__pin_project_make_proj_replace_ty_body! { [$proj_ty_ident] [$proj_vis struct] [$($impl_generics)*] [$($ty_generics)*] [$(where $($where_clause)*)?] [ $( $field_vis $field: $crate::$__pin_project_make_proj_field!( $(#[$pin])? $field_ty ) ),+ ] } }; ( [$proj_ty_ident:ident] [$proj_vis:vis enum] [$__pin_project_make_proj_field:ident] [$($impl_generics:tt)*] [$($ty_generics:tt)*] [$(where $($where_clause:tt)*)?] { $( $(#[$variant_attrs:meta])* $variant:ident $({ $( $(#[$pin:ident])? $field:ident: $field_ty:ty ),+ $(,)? })? ),+ $(,)? } ) => { $crate::__pin_project_make_proj_replace_ty_body! { [$proj_ty_ident] [$proj_vis enum] [$($impl_generics)*] [$($ty_generics)*] [$(where $($where_clause)*)?] [ $( $variant $({ $( $field: $crate::$__pin_project_make_proj_field!( $(#[$pin])? $field_ty ) ),+ })? ),+ ] } }; } #[doc(hidden)] #[macro_export] macro_rules! __pin_project_make_proj_replace_ty_body { ( [$proj_ty_ident:ident] [$proj_vis:vis $struct_ty_ident:ident] [$($impl_generics:tt)*] [$($ty_generics:tt)*] [$(where $($where_clause:tt)*)?] [$($body_data:tt)+] ) => { #[allow(dead_code)] // This lint warns unused fields/variants. #[allow(single_use_lifetimes)] // https://github.com/rust-lang/rust/issues/55058 #[allow(clippy::mut_mut)] // This lint warns `&mut &mut `. (only needed for project) #[allow(clippy::redundant_pub_crate)] // This lint warns `pub(crate)` field in private struct. #[allow(clippy::type_repetition_in_bounds)] // https://github.com/rust-lang/rust-clippy/issues/4326 $proj_vis $struct_ty_ident $proj_ty_ident <$($impl_generics)*> where $($($where_clause)*)? { $($body_data)+ } }; } #[doc(hidden)] #[macro_export] macro_rules! __pin_project_make_proj_replace_block { ( [$($proj_path:tt)+] { $( $(#[$pin:ident])? $field_vis:vis $field:ident ),+ } ) => { let result = $($proj_path)* { $( $field: $crate::__pin_project_make_replace_field_proj!( $(#[$pin])? $field ) ),+ }; { ( $( $crate::__pin_project_make_unsafe_drop_in_place_guard!( $(#[$pin])? $field ), )* ); } result }; ([$($proj_path:tt)+]) => { $($proj_path)* }; } #[doc(hidden)] #[macro_export] macro_rules! __pin_project_struct_make_proj_method { ([] $($variant:tt)*) => {}; ( [$proj_ty_ident:ident $_ignored_default_arg:ident] [$proj_vis:vis] [$method_ident:ident $get_method:ident $($mut:ident)?] [$($ty_generics:tt)*] $($variant:tt)* ) => { $crate::__pin_project_struct_make_proj_method! { [$proj_ty_ident] [$proj_vis] [$method_ident $get_method $($mut)?] [$($ty_generics)*] $($variant)* } }; ( [$proj_ty_ident:ident] [$proj_vis:vis] [$method_ident:ident $get_method:ident $($mut:ident)?] [$($ty_generics:tt)*] { $( $(#[$pin:ident])? $field_vis:vis $field:ident ),+ } ) => { #[inline] $proj_vis fn $method_ident<'__pin>( self: $crate::__private::Pin<&'__pin $($mut)? Self>, ) -> $proj_ty_ident <'__pin, $($ty_generics)*> { unsafe { let Self { $($field),* } = self.$get_method(); $proj_ty_ident { $( $field: $crate::__pin_project_make_unsafe_field_proj!( $(#[$pin])? $field ) ),+ } } } }; } #[doc(hidden)] #[macro_export] macro_rules! __pin_project_struct_make_proj_replace_method { ([] $($field:tt)*) => {}; ( [$proj_ty_ident:ident] [$proj_vis:vis] [$_proj_ty_ident:ident] [$($ty_generics:tt)*] { $( $(#[$pin:ident])? $field_vis:vis $field:ident ),+ } ) => { #[inline] $proj_vis fn project_replace( self: $crate::__private::Pin<&mut Self>, replacement: Self, ) -> $proj_ty_ident <$($ty_generics)*> { unsafe { let __self_ptr: *mut Self = self.get_unchecked_mut(); // Destructors will run in reverse order, so next create a guard to overwrite // `self` with the replacement value without calling destructors. let __guard = $crate::__private::UnsafeOverwriteGuard::new(__self_ptr, replacement); let Self { $($field),* } = &mut *__self_ptr; $crate::__pin_project_make_proj_replace_block! { [$proj_ty_ident] { $( $(#[$pin])? $field ),+ } } } } }; } #[doc(hidden)] #[macro_export] macro_rules! __pin_project_enum_make_proj_method { ([] $($variant:tt)*) => {}; ( [$proj_ty_ident:ident] [$proj_vis:vis] [$method_ident:ident $get_method:ident $($mut:ident)?] [$($ty_generics:tt)*] { $( $variant:ident $({ $( $(#[$pin:ident])? $field:ident ),+ })? ),+ } ) => { #[inline] $proj_vis fn $method_ident<'__pin>( self: $crate::__private::Pin<&'__pin $($mut)? Self>, ) -> $proj_ty_ident <'__pin, $($ty_generics)*> { unsafe { match self.$get_method() { $( Self::$variant $({ $($field),+ })? => { $proj_ty_ident::$variant $({ $( $field: $crate::__pin_project_make_unsafe_field_proj!( $(#[$pin])? $field ) ),+ })? } ),+ } } } }; } #[doc(hidden)] #[macro_export] macro_rules! __pin_project_enum_make_proj_replace_method { ([] $($field:tt)*) => {}; ( [$proj_ty_ident:ident] [$proj_vis:vis] [$($ty_generics:tt)*] { $( $variant:ident $({ $( $(#[$pin:ident])? $field:ident ),+ })? ),+ } ) => { #[inline] $proj_vis fn project_replace( self: $crate::__private::Pin<&mut Self>, replacement: Self, ) -> $proj_ty_ident <$($ty_generics)*> { unsafe { let __self_ptr: *mut Self = self.get_unchecked_mut(); // Destructors will run in reverse order, so next create a guard to overwrite // `self` with the replacement value without calling destructors. let __guard = $crate::__private::UnsafeOverwriteGuard::new(__self_ptr, replacement); match &mut *__self_ptr { $( Self::$variant $({ $($field),+ })? => { $crate::__pin_project_make_proj_replace_block! { [$proj_ty_ident :: $variant] $({ $( $(#[$pin])? $field ),+ })? } } ),+ } } } }; } #[doc(hidden)] #[macro_export] macro_rules! __pin_project_make_unpin_impl { ( [$vis:vis $ident:ident] [$($impl_generics:tt)*] [$($ty_generics:tt)*] [$(where $($where_clause:tt)*)?] $($field:tt)* ) => { // Automatically create the appropriate conditional `Unpin` implementation. // // Basically this is equivalent to the following code: // ```rust // impl Unpin for Struct where T: Unpin {} // ``` // // However, if struct is public and there is a private type field, // this would cause an E0446 (private type in public interface). // // When RFC 2145 is implemented (rust-lang/rust#48054), // this will become a lint, rather then a hard error. // // As a workaround for this, we generate a new struct, containing all of the pinned // fields from our #[pin_project] type. This struct is declared within // a function, which makes it impossible to be named by user code. // This guarantees that it will use the default auto-trait impl for Unpin - // that is, it will implement Unpin iff all of its fields implement Unpin. // This type can be safely declared as 'public', satisfying the privacy // checker without actually allowing user code to access it. // // This allows users to apply the #[pin_project] attribute to types // regardless of the privacy of the types of their fields. // // See also https://github.com/taiki-e/pin-project/pull/53. #[allow(non_snake_case)] $vis struct __Origin <'__pin, $($impl_generics)*> $(where $($where_clause)*)? { __dummy_lifetime: $crate::__private::PhantomData<&'__pin ()>, $($field)* } impl <'__pin, $($impl_generics)*> $crate::__private::Unpin for $ident <$($ty_generics)*> where __Origin <'__pin, $($ty_generics)*>: $crate::__private::Unpin $(, $($where_clause)*)? { } }; } #[doc(hidden)] #[macro_export] macro_rules! __pin_project_make_drop_impl { ( [$_ident:ident] [$($_impl_generics:tt)*] [$($_ty_generics:tt)*] [$(where $($_where_clause:tt)*)?] impl $(< $( $lifetime:lifetime $(: $lifetime_bound:lifetime)? ),* $(,)? $( $generics:ident $(: $generics_bound:path)? $(: ?$generics_unsized_bound:path)? $(: $generics_lifetime_bound:lifetime)? ),* >)? PinnedDrop for $self_ty:ty $(where $( $where_clause_ty:ty $(: $where_clause_bound:path)? $(: ?$where_clause_unsized_bound:path)? $(: $where_clause_lifetime_bound:lifetime)? ),* $(,)? )? { fn drop($($arg:ident)+: Pin<&mut Self>) { $($tt:tt)* } } ) => { impl $(< $( $lifetime $(: $lifetime_bound)? ,)* $( $generics $(: $generics_bound)? $(: ?$generics_unsized_bound)? $(: $generics_lifetime_bound)? ),* >)? $crate::__private::Drop for $self_ty $(where $( $where_clause_ty $(: $where_clause_bound)? $(: ?$where_clause_unsized_bound)? $(: $where_clause_lifetime_bound)? ),* )? { fn drop(&mut self) { // Implementing `__DropInner::__drop_inner` 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](https://github.com/rust-lang/rust/pull/62360). // // `__drop_inner` is defined as a safe method, but this is fine since // `__drop_inner` is not accessible by the users and we call `__drop_inner` only // once. // // Users can implement [`Drop`] safely using `pin_project!` and can drop a // type that implements `PinnedDrop` using the [`drop`] function safely. fn __drop_inner $(< $( $lifetime $(: $lifetime_bound)? ,)* $( $generics $(: $generics_bound)? $(: ?$generics_unsized_bound)? $(: $generics_lifetime_bound)? ),* >)? ( $($arg)+: $crate::__private::Pin<&mut $self_ty>, ) $(where $( $where_clause_ty $(: $where_clause_bound)? $(: ?$where_clause_unsized_bound)? $(: $where_clause_lifetime_bound)? ),* )? { // A dummy `__drop_inner` function to prevent users call outer `__drop_inner`. fn __drop_inner() {} $($tt)* } // Safety - we're in 'drop', so we know that 'self' will // never move again. let pinned_self: $crate::__private::Pin<&mut Self> = unsafe { $crate::__private::Pin::new_unchecked(self) }; // We call `__drop_inner` only once. Since `__DropInner::__drop_inner` // is not accessible by the users, it is never called again. __drop_inner(pinned_self); } } }; ( [$ident:ident] [$($impl_generics:tt)*] [$($ty_generics:tt)*] [$(where $($where_clause:tt)*)?] ) => { // Ensure that struct does not implement `Drop`. // // There are two possible cases: // 1. The user type does not implement Drop. In this case, // the first blanked impl will not apply to it. This code // will compile, as there is only one impl of MustNotImplDrop for the user type // 2. The user type does impl Drop. This will make the blanket impl applicable, // which will then conflict with the explicit MustNotImplDrop impl below. // This will result in a compilation error, which is exactly what we want. trait MustNotImplDrop {} #[allow(clippy::drop_bounds, drop_bounds)] impl MustNotImplDrop for T {} impl <$($impl_generics)*> MustNotImplDrop for $ident <$($ty_generics)*> $(where $($where_clause)*)? { } }; } #[doc(hidden)] #[macro_export] macro_rules! __pin_project_make_unpin_bound { (#[pin] $field_ty:ty) => { $field_ty }; ($field_ty:ty) => { $crate::__private::AlwaysUnpin<$field_ty> }; } #[doc(hidden)] #[macro_export] macro_rules! __pin_project_make_unsafe_field_proj { (#[pin] $field:ident) => { $crate::__private::Pin::new_unchecked($field) }; ($field:ident) => { $field }; } #[doc(hidden)] #[macro_export] macro_rules! __pin_project_make_replace_field_proj { (#[pin] $field:ident) => { $crate::__private::PhantomData }; ($field:ident) => { $crate::__private::ptr::read($field) }; } #[doc(hidden)] #[macro_export] macro_rules! __pin_project_make_unsafe_drop_in_place_guard { (#[pin] $field:ident) => { $crate::__private::UnsafeDropInPlaceGuard::new($field) }; ($field:ident) => { () }; } #[doc(hidden)] #[macro_export] macro_rules! __pin_project_make_proj_field_mut { (#[pin] $field_ty:ty) => { $crate::__private::Pin<&'__pin mut ($field_ty)> }; ($field_ty:ty) => { &'__pin mut ($field_ty) }; } #[doc(hidden)] #[macro_export] macro_rules! __pin_project_make_proj_field_ref { (#[pin] $field_ty:ty) => { $crate::__private::Pin<&'__pin ($field_ty)> }; ($field_ty:ty) => { &'__pin ($field_ty) }; } #[doc(hidden)] #[macro_export] macro_rules! __pin_project_make_proj_field_replace { (#[pin] $field_ty:ty) => { $crate::__private::PhantomData<$field_ty> }; ($field_ty:ty) => { $field_ty }; } #[doc(hidden)] #[macro_export] macro_rules! __pin_project_internal { // parsing proj_mut_ident ( [] [$($proj_ref_ident:ident)?] [$($proj_replace_ident:ident)?] [$($attrs:tt)*] #[project = $proj_mut_ident:ident] $($tt:tt)* ) => { $crate::__pin_project_internal! { [$proj_mut_ident] [$($proj_ref_ident)?] [$($proj_replace_ident)?] [$($attrs)*] $($tt)* } }; // parsing proj_ref_ident ( [$($proj_mut_ident:ident)?] [] [$($proj_replace_ident:ident)?] [$($attrs:tt)*] #[project_ref = $proj_ref_ident:ident] $($tt:tt)* ) => { $crate::__pin_project_internal! { [$($proj_mut_ident)?] [$proj_ref_ident] [$($proj_replace_ident)?] [$($attrs)*] $($tt)* } }; // parsing proj_replace_ident ( [$($proj_mut_ident:ident)?] [$($proj_ref_ident:ident)?] [] [$($attrs:tt)*] #[project_replace = $proj_replace_ident:ident] $($tt:tt)* ) => { $crate::__pin_project_internal! { [$($proj_mut_ident)?] [$($proj_ref_ident)?] [$proj_replace_ident] [$($attrs)*] $($tt)* } }; // this is actually part of a recursive step that picks off a single non-`pin_project_lite` attribute // there could be more to parse ( [$($proj_mut_ident:ident)?] [$($proj_ref_ident:ident)?] [$($proj_replace_ident:ident)?] [$($attrs:tt)*] #[$($attr:tt)*] $($tt:tt)* ) => { $crate::__pin_project_internal! { [$($proj_mut_ident)?] [$($proj_ref_ident)?] [$($proj_replace_ident)?] [$($attrs)* #[$($attr)*]] $($tt)* } }; // now determine visibility // if public, downgrade ( [$($proj_mut_ident:ident)?] [$($proj_ref_ident:ident)?] [$($proj_replace_ident:ident)?] [$($attrs:tt)*] pub $struct_ty_ident:ident $ident:ident $($tt:tt)* ) => { $crate::__pin_project_parse_generics! { [$($proj_mut_ident)?] [$($proj_ref_ident)?] [$($proj_replace_ident)?] [$($attrs)*] [pub $struct_ty_ident $ident pub(crate)] $($tt)* } }; ( [$($proj_mut_ident:ident)?] [$($proj_ref_ident:ident)?] [$($proj_replace_ident:ident)?] [$($attrs:tt)*] $vis:vis $struct_ty_ident:ident $ident:ident $($tt:tt)* ) => { $crate::__pin_project_parse_generics! { [$($proj_mut_ident)?] [$($proj_ref_ident)?] [$($proj_replace_ident)?] [$($attrs)*] [$vis $struct_ty_ident $ident $vis] $($tt)* } }; } #[doc(hidden)] #[macro_export] macro_rules! __pin_project_parse_generics { ( [$($proj_mut_ident:ident)?] [$($proj_ref_ident:ident)?] [$($proj_replace_ident:ident)?] [$($attrs:tt)*] [$vis:vis $struct_ty_ident:ident $ident:ident $proj_ty_vis:vis] $(< $( $lifetime:lifetime $(: $lifetime_bound:lifetime)? ),* $(,)? $( $generics:ident $(: $generics_bound:path)? $(: ?$generics_unsized_bound:path)? $(: $generics_lifetime_bound:lifetime)? $(= $generics_default:ty)? ),* $(,)? >)? $(where $( $where_clause_ty:ty $(: $where_clause_bound:path)? $(: ?$where_clause_unsized_bound:path)? $(: $where_clause_lifetime_bound:lifetime)? ),* $(,)? )? { $($body_data:tt)* } $(impl $($pinned_drop:tt)*)? ) => { $crate::__pin_project_expand! { [$($proj_mut_ident)?] [$($proj_ref_ident)?] [$($proj_replace_ident)?] [$proj_ty_vis] [$($attrs)* $vis $struct_ty_ident $ident] [$(< $( $lifetime $(: $lifetime_bound)? ,)* $( $generics $(: $generics_bound)? $(: ?$generics_unsized_bound)? $(: $generics_lifetime_bound)? $(= $generics_default)? ),* >)?] [$( $( $lifetime $(: $lifetime_bound)? ,)* $( $generics $(: $generics_bound)? $(: ?$generics_unsized_bound)? $(: $generics_lifetime_bound)? ),* )?] [$( $( $lifetime ,)* $( $generics ),* )?] [$(where $( $where_clause_ty $(: $where_clause_bound)? $(: ?$where_clause_unsized_bound)? $(: $where_clause_lifetime_bound)? ),* )?] { $($body_data)* } $(impl $($pinned_drop)*)? } }; } #[doc(hidden)] pub mod __private { use core::mem::ManuallyDrop; #[doc(hidden)] pub use core::{ marker::{PhantomData, Unpin}, ops::Drop, pin::Pin, ptr, }; // This is an internal helper struct used by `pin_project!`. #[doc(hidden)] pub struct AlwaysUnpin(PhantomData); impl Unpin for AlwaysUnpin {} // This is an internal helper used to ensure a value is dropped. #[doc(hidden)] pub struct UnsafeDropInPlaceGuard(*mut T); impl UnsafeDropInPlaceGuard { #[doc(hidden)] pub unsafe fn new(ptr: *mut T) -> Self { Self(ptr) } } impl Drop for UnsafeDropInPlaceGuard { fn drop(&mut self) { // SAFETY: the caller of `UnsafeDropInPlaceGuard::new` must guarantee // that `ptr` is valid for drop when this guard is destructed. 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 { target: *mut T, value: ManuallyDrop, } impl UnsafeOverwriteGuard { #[doc(hidden)] pub unsafe fn new(target: *mut T, value: T) -> Self { Self { target, value: ManuallyDrop::new(value) } } } impl Drop for UnsafeOverwriteGuard { fn drop(&mut self) { // SAFETY: the caller of `UnsafeOverwriteGuard::new` must guarantee // that `target` is valid for writes when this guard is destructed. unsafe { ptr::write(self.target, ptr::read(&*self.value)); } } } }