#![warn(rust_2018_idioms, single_use_lifetimes)] #![allow(dead_code)] #[macro_use] mod auxiliary; use core::{marker::PhantomPinned, pin::Pin}; use pin_project_lite::pin_project; #[test] fn projection() { pin_project! { #[project = StructProj] #[project_ref = StructProjRef] struct Struct { #[pin] f1: T, f2: U, } } let mut s = Struct { f1: 1, f2: 2 }; let mut s_orig = Pin::new(&mut s); let s = s_orig.as_mut().project(); let _: Pin<&mut i32> = s.f1; assert_eq!(*s.f1, 1); let _: &mut i32 = s.f2; assert_eq!(*s.f2, 2); assert_eq!(s_orig.as_ref().f1, 1); assert_eq!(s_orig.as_ref().f2, 2); let mut s = Struct { f1: 1, f2: 2 }; let mut s = Pin::new(&mut s); { let StructProj { f1, f2 } = s.as_mut().project(); let _: Pin<&mut i32> = f1; let _: &mut i32 = f2; } { let StructProjRef { f1, f2 } = s.as_ref().project_ref(); let _: Pin<&i32> = f1; let _: &i32 = f2; } pin_project! { #[project = EnumProj] #[project_ref = EnumProjRef] #[derive(Eq, PartialEq, Debug)] enum Enum { Struct { #[pin] f1: C, f2: D, }, Unit, } } let mut e = Enum::Struct { f1: 1, f2: 2 }; let mut e = Pin::new(&mut e); match e.as_mut().project() { EnumProj::Struct { f1, f2 } => { let _: Pin<&mut i32> = f1; assert_eq!(*f1, 1); let _: &mut i32 = f2; assert_eq!(*f2, 2); } EnumProj::Unit => unreachable!(), } assert_eq!(&*e, &Enum::Struct { f1: 1, f2: 2 }); if let EnumProj::Struct { f1, f2 } = e.as_mut().project() { let _: Pin<&mut i32> = f1; assert_eq!(*f1, 1); let _: &mut i32 = f2; assert_eq!(*f2, 2); } } #[test] fn enum_project_set() { pin_project! { #[project = EnumProj] #[project_ref = EnumProjRef] #[derive(Eq, PartialEq, Debug)] enum Enum { V1 { #[pin] f: u8 }, V2 { f: bool }, } } let mut e = Enum::V1 { f: 25 }; let mut e_orig = Pin::new(&mut e); let e_proj = e_orig.as_mut().project(); match e_proj { EnumProj::V1 { f } => { let new_e = Enum::V2 { f: f.as_ref().get_ref() == &25 }; e_orig.set(new_e); } EnumProj::V2 { .. } => unreachable!(), } assert_eq!(e, Enum::V2 { f: true }); } #[test] fn where_clause() { pin_project! { struct Struct where T: Copy, { f: T, } } pin_project! { #[project = EnumProj] #[project_ref = EnumProjRef] enum Enum where T: Copy, { V { f: T }, } } } #[test] fn where_clause_and_associated_type_field() { pin_project! { struct Struct1 where I: Iterator, { #[pin] f1: I, f2: I::Item, } } pin_project! { struct Struct2 where I: Iterator, { #[pin] f1: I, f2: J, } } pin_project! { pub struct Struct3 where T: 'static, { f: T, } } trait Static: 'static {} impl Static for Struct3 {} pin_project! { #[project = EnumProj] #[project_ref = EnumProjRef] enum Enum where I: Iterator, { V1 { #[pin] f: I }, V2 { f: I::Item }, } } } #[test] fn derive_copy() { pin_project! { #[derive(Clone, Copy)] struct Struct { f: T, } } fn is_copy() {} is_copy::>(); } #[test] fn move_out() { struct NotCopy; pin_project! { struct Struct { f: NotCopy, } } let x = Struct { f: NotCopy }; let _val: NotCopy = x.f; pin_project! { #[project = EnumProj] #[project_ref = EnumProjRef] enum Enum { V { f: NotCopy }, } } let x = Enum::V { f: NotCopy }; #[allow(clippy::infallible_destructuring_match)] let _val: NotCopy = match x { Enum::V { f } => f, }; } #[test] fn trait_bounds_on_type_generics() { pin_project! { pub struct Struct1<'a, T: ?Sized> { f: &'a mut T, } } pin_project! { pub struct Struct2<'a, T: ::core::fmt::Debug> { f: &'a mut T, } } pin_project! { pub struct Struct3<'a, T: core::fmt::Debug> { f: &'a mut T, } } // pin_project! { // pub struct Struct4<'a, T: core::fmt::Debug + core::fmt::Display> { // f: &'a mut T, // } // } // pin_project! { // pub struct Struct5<'a, T: core::fmt::Debug + ?Sized> { // f: &'a mut T, // } // } pin_project! { pub struct Struct6<'a, T: core::fmt::Debug = [u8; 16]> { f: &'a mut T, } } let _: Struct6<'_> = Struct6 { f: &mut [0_u8; 16] }; pin_project! { pub struct Struct7 { f: T, } } trait Static: 'static {} impl Static for Struct7 {} pin_project! { pub struct Struct8<'a, 'b: 'a> { f1: &'a u8, f2: &'b u8, } } pin_project! { #[project = EnumProj] #[project_ref = EnumProjRef] enum Enum<'a, T: ?Sized> { V { f: &'a mut T }, } } } #[test] fn private_type_in_public_type() { pin_project! { pub struct PublicStruct { #[pin] inner: PrivateStruct, } } struct PrivateStruct(T); } #[allow(clippy::needless_lifetimes)] #[test] fn lifetime_project() { pin_project! { struct Struct1 { #[pin] pinned: T, unpinned: U, } } pin_project! { struct Struct2<'a, T, U> { #[pin] pinned: &'a T, unpinned: U, } } pin_project! { #[project = EnumProj] #[project_ref = EnumProjRef] enum Enum { V { #[pin] pinned: T, unpinned: U, }, } } impl Struct1 { fn get_pin_ref<'a>(self: Pin<&'a Self>) -> Pin<&'a T> { self.project_ref().pinned } fn get_pin_mut<'a>(self: Pin<&'a mut Self>) -> Pin<&'a mut T> { self.project().pinned } fn get_pin_ref_elided(self: Pin<&Self>) -> Pin<&T> { self.project_ref().pinned } fn get_pin_mut_elided(self: Pin<&mut Self>) -> Pin<&mut T> { self.project().pinned } } impl<'b, T, U> Struct2<'b, T, U> { fn get_pin_ref<'a>(self: Pin<&'a Self>) -> Pin<&'a &'b T> { self.project_ref().pinned } fn get_pin_mut<'a>(self: Pin<&'a mut Self>) -> Pin<&'a mut &'b T> { self.project().pinned } fn get_pin_ref_elided(self: Pin<&Self>) -> Pin<&&'b T> { self.project_ref().pinned } fn get_pin_mut_elided(self: Pin<&mut Self>) -> Pin<&mut &'b T> { self.project().pinned } } impl Enum { fn get_pin_ref<'a>(self: Pin<&'a Self>) -> Pin<&'a T> { match self.project_ref() { EnumProjRef::V { pinned, .. } => pinned, } } fn get_pin_mut<'a>(self: Pin<&'a mut Self>) -> Pin<&'a mut T> { match self.project() { EnumProj::V { pinned, .. } => pinned, } } fn get_pin_ref_elided(self: Pin<&Self>) -> Pin<&T> { match self.project_ref() { EnumProjRef::V { pinned, .. } => pinned, } } fn get_pin_mut_elided(self: Pin<&mut Self>) -> Pin<&mut T> { match self.project() { EnumProj::V { pinned, .. } => pinned, } } } } mod visibility { use pin_project_lite::pin_project; pin_project! { pub(crate) struct S { pub f: u8, } } } #[test] fn visibility() { let mut x = visibility::S { f: 0 }; let x = Pin::new(&mut x); let y = x.as_ref().project_ref(); let _: &u8 = y.f; let y = x.project(); let _: &mut u8 = y.f; } #[test] fn trivial_bounds() { pin_project! { pub struct NoGenerics { #[pin] f: PhantomPinned, } } assert_not_unpin!(NoGenerics); } #[test] fn dst() { pin_project! { pub struct Struct1 { f: T, } } let mut x = Struct1 { f: 0_u8 }; let x: Pin<&mut Struct1> = Pin::new(&mut x as _); let _: &mut (dyn core::fmt::Debug) = x.project().f; pin_project! { pub struct Struct2 { #[pin] f: T, } } let mut x = Struct2 { f: 0_u8 }; let x: Pin<&mut Struct2> = Pin::new(&mut x as _); let _: Pin<&mut (dyn core::fmt::Debug + Unpin)> = x.project().f; pin_project! { struct Struct3 where T: ?Sized, { f: T, } } pin_project! { struct Struct4 where T: ?Sized, { #[pin] f: T, } } pin_project! { struct Struct11<'a, T: ?Sized, U: ?Sized> { f1: &'a mut T, f2: U, } } } #[test] fn dyn_type() { pin_project! { struct Struct1 { f: dyn core::fmt::Debug, } } pin_project! { struct Struct2 { #[pin] f: dyn core::fmt::Debug, } } pin_project! { struct Struct3 { f: dyn core::fmt::Debug + Send, } } pin_project! { struct Struct4 { #[pin] f: dyn core::fmt::Debug + Send, } } } #[test] fn no_infer_outlives() { trait Trait { type Y; } struct Struct1(A); impl Trait for Struct1 { type Y = Option; } pin_project! { struct Struct2 { _f: as Trait>::Y, } } } // https://github.com/taiki-e/pin-project-lite/issues/31 #[test] fn trailing_comma() { pub trait T {} pin_project! { pub struct S1< A: T, B: T, > { f: (A, B), } } pin_project! { pub struct S2< A, B, > where A: T, B: T, { f: (A, B), } } pin_project! { #[allow(explicit_outlives_requirements)] pub struct S3< 'a, A: 'a, B: 'a, > { f: &'a (A, B), } } // pin_project! { // pub struct S4< // 'a, // 'b: 'a, // <----- // > { // f: &'a &'b (), // } // } } #[test] fn attrs() { pin_project! { #[project = Enum1Proj] #[project_ref = Enum1ProjRef] enum Enum1 { #[cfg(not(any()))] V { f: () }, } } pin_project! { /// dox1 #[project = Enum2Proj] #[project_ref = Enum2ProjRef] /// dox2 #[derive(Debug)] /// dox3 enum Enum2 { /// dox4 V1 { // TODO // /// dox5 f: () }, /// dox6 V2, } } }