arm/usr/lib/rustlib/src/rust/library/proc_macro/src/bridge/scoped_cell.rs - manifest_repos/toolchain - Git at Google

 //! `Cell` variant for (scoped) existential lifetimes.

 use std::cell::Cell;
 use std::mem;
 use std::ops::{Deref, DerefMut};

 /// Type lambda application, with a lifetime.
 #[allow(unused_lifetimes)]
 pub trait ApplyL<'a> {
     type Out;
 }

 /// Type lambda taking a lifetime, i.e., `Lifetime -> Type`.
 pub trait LambdaL: for<'a> ApplyL<'a> {}

 impl<T: for<'a> ApplyL<'a>> LambdaL for T {}

 // HACK(eddyb) work around projection limitations with a newtype
 // FIXME(#52812) replace with `&'a mut <T as ApplyL<'b>>::Out`
 pub struct RefMutL<'a, 'b, T: LambdaL>(&'a mut <T as ApplyL<'b>>::Out);

 impl<'a, 'b, T: LambdaL> Deref for RefMutL<'a, 'b, T> {
     type Target = <T as ApplyL<'b>>::Out;
     fn deref(&self) -> &Self::Target {
         self.0
     }
 }

 impl<'a, 'b, T: LambdaL> DerefMut for RefMutL<'a, 'b, T> {
     fn deref_mut(&mut self) -> &mut Self::Target {
         self.0
     }
 }

 pub struct ScopedCell<T: LambdaL>(Cell<<T as ApplyL<'static>>::Out>);

 impl<T: LambdaL> ScopedCell<T> {
     pub const fn new(value: <T as ApplyL<'static>>::Out) -> Self {
         ScopedCell(Cell::new(value))
     }

     /// Sets the value in `self` to `replacement` while
     /// running `f`, which gets the old value, mutably.
     /// The old value will be restored after `f` exits, even
     /// by panic, including modifications made to it by `f`.
     pub fn replace<'a, R>(
         &self,
         replacement: <T as ApplyL<'a>>::Out,
         f: impl for<'b, 'c> FnOnce(RefMutL<'b, 'c, T>) -> R,
     ) -> R {
         /// Wrapper that ensures that the cell always gets filled
         /// (with the original state, optionally changed by `f`),
         /// even if `f` had panicked.
         struct PutBackOnDrop<'a, T: LambdaL> {
             cell: &'a ScopedCell<T>,
             value: Option<<T as ApplyL<'static>>::Out>,
         }

         impl<'a, T: LambdaL> Drop for PutBackOnDrop<'a, T> {
             fn drop(&mut self) {
                 self.cell.0.set(self.value.take().unwrap());
             }
         }

         let mut put_back_on_drop = PutBackOnDrop {
             cell: self,
             value: Some(self.0.replace(unsafe {
                 let erased = mem::transmute_copy(&replacement);
                 mem::forget(replacement);
                 erased
             })),
         };

         f(RefMutL(put_back_on_drop.value.as_mut().unwrap()))
     }

     /// Sets the value in `self` to `value` while running `f`.
     pub fn set<R>(&self, value: <T as ApplyL<'_>>::Out, f: impl FnOnce() -> R) -> R {
         self.replace(value, |_| f())
     }
 }
	//! `Cell` variant for (scoped) existential lifetimes.

	use std::cell::Cell;
	use std::mem;
	use std::ops::{Deref, DerefMut};

	/// Type lambda application, with a lifetime.
	#[allow(unused_lifetimes)]
	pub trait ApplyL<'a> {
	type Out;
	}

	/// Type lambda taking a lifetime, i.e., `Lifetime -> Type`.
	pub trait LambdaL: for<'a> ApplyL<'a> {}

	impl<T: for<'a> ApplyL<'a>> LambdaL for T {}

	// HACK(eddyb) work around projection limitations with a newtype
	// FIXME(#52812) replace with `&'a mut <T as ApplyL<'b>>::Out`
	pub struct RefMutL<'a, 'b, T: LambdaL>(&'a mut <T as ApplyL<'b>>::Out);

	impl<'a, 'b, T: LambdaL> Deref for RefMutL<'a, 'b, T> {
	type Target = <T as ApplyL<'b>>::Out;
	fn deref(&self) -> &Self::Target {
	self.0
	}
	}

	impl<'a, 'b, T: LambdaL> DerefMut for RefMutL<'a, 'b, T> {
	fn deref_mut(&mut self) -> &mut Self::Target {
	self.0
	}
	}

	pub struct ScopedCell<T: LambdaL>(Cell<<T as ApplyL<'static>>::Out>);

	impl<T: LambdaL> ScopedCell<T> {
	pub const fn new(value: <T as ApplyL<'static>>::Out) -> Self {
	ScopedCell(Cell::new(value))
	}

	/// Sets the value in `self` to `replacement` while
	/// running `f`, which gets the old value, mutably.
	/// The old value will be restored after `f` exits, even
	/// by panic, including modifications made to it by `f`.
	pub fn replace<'a, R>(
	&self,
	replacement: <T as ApplyL<'a>>::Out,
	f: impl for<'b, 'c> FnOnce(RefMutL<'b, 'c, T>) -> R,
	) -> R {
	/// Wrapper that ensures that the cell always gets filled
	/// (with the original state, optionally changed by `f`),
	/// even if `f` had panicked.
	struct PutBackOnDrop<'a, T: LambdaL> {
	cell: &'a ScopedCell<T>,
	value: Option<<T as ApplyL<'static>>::Out>,
	}

	impl<'a, T: LambdaL> Drop for PutBackOnDrop<'a, T> {
	fn drop(&mut self) {
	self.cell.0.set(self.value.take().unwrap());
	}
	}

	let mut put_back_on_drop = PutBackOnDrop {
	cell: self,
	value: Some(self.0.replace(unsafe {
	let erased = mem::transmute_copy(&replacement);
	mem::forget(replacement);
	erased
	})),
	};

	f(RefMutL(put_back_on_drop.value.as_mut().unwrap()))
	}

	/// Sets the value in `self` to `value` while running `f`.
	pub fn set<R>(&self, value: <T as ApplyL<'_>>::Out, f: impl FnOnce() -> R) -> R {
	self.replace(value, \|_\| f())
	}
	}