diff --git a/compiler/rustc_arena/src/lib.rs b/compiler/rustc_arena/src/lib.rs index 06eb8a185be..bf8a7eb293e 100644 --- a/compiler/rustc_arena/src/lib.rs +++ b/compiler/rustc_arena/src/lib.rs @@ -15,7 +15,6 @@ #![feature(dropck_eyepatch)] #![feature(new_uninit)] #![feature(maybe_uninit_slice)] -#![feature(min_specialization)] #![feature(decl_macro)] #![feature(pointer_byte_offsets)] #![feature(rustc_attrs)] @@ -44,23 +43,6 @@ fn outline R, R>(f: F) -> R { f() } -/// An arena that can hold objects of only one type. -pub struct TypedArena { - /// A pointer to the next object to be allocated. - ptr: Cell<*mut T>, - - /// A pointer to the end of the allocated area. When this pointer is - /// reached, a new chunk is allocated. - end: Cell<*mut T>, - - /// A vector of arena chunks. - chunks: RefCell>>, - - /// Marker indicating that dropping the arena causes its owned - /// instances of `T` to be dropped. - _own: PhantomData, -} - struct ArenaChunk { /// The raw storage for the arena chunk. storage: NonNull<[MaybeUninit]>, @@ -130,6 +112,23 @@ impl ArenaChunk { const PAGE: usize = 4096; const HUGE_PAGE: usize = 2 * 1024 * 1024; +/// An arena that can hold objects of only one type. +pub struct TypedArena { + /// A pointer to the next object to be allocated. + ptr: Cell<*mut T>, + + /// A pointer to the end of the allocated area. When this pointer is + /// reached, a new chunk is allocated. + end: Cell<*mut T>, + + /// A vector of arena chunks. + chunks: RefCell>>, + + /// Marker indicating that dropping the arena causes its owned + /// instances of `T` to be dropped. + _own: PhantomData, +} + impl Default for TypedArena { /// Creates a new `TypedArena`. fn default() -> TypedArena { @@ -144,77 +143,6 @@ impl Default for TypedArena { } } -trait IterExt { - fn alloc_from_iter(self, arena: &TypedArena) -> &mut [T]; -} - -impl IterExt for I -where - I: IntoIterator, -{ - // This default collects into a `SmallVec` and then allocates by copying - // from it. The specializations below for types like `Vec` are more - // efficient, copying directly without the intermediate collecting step. - // This default could be made more efficient, like - // `DroplessArena::alloc_from_iter`, but it's not hot enough to bother. - #[inline] - default fn alloc_from_iter(self, arena: &TypedArena) -> &mut [T] { - let vec: SmallVec<[_; 8]> = self.into_iter().collect(); - vec.alloc_from_iter(arena) - } -} - -impl IterExt for std::array::IntoIter { - #[inline] - fn alloc_from_iter(self, arena: &TypedArena) -> &mut [T] { - let len = self.len(); - if len == 0 { - return &mut []; - } - // Move the content to the arena by copying and then forgetting it. - let start_ptr = arena.alloc_raw_slice(len); - unsafe { - self.as_slice().as_ptr().copy_to_nonoverlapping(start_ptr, len); - mem::forget(self); - slice::from_raw_parts_mut(start_ptr, len) - } - } -} - -impl IterExt for Vec { - #[inline] - fn alloc_from_iter(mut self, arena: &TypedArena) -> &mut [T] { - let len = self.len(); - if len == 0 { - return &mut []; - } - // Move the content to the arena by copying and then forgetting it. - let start_ptr = arena.alloc_raw_slice(len); - unsafe { - self.as_ptr().copy_to_nonoverlapping(start_ptr, len); - self.set_len(0); - slice::from_raw_parts_mut(start_ptr, len) - } - } -} - -impl IterExt for SmallVec { - #[inline] - fn alloc_from_iter(mut self, arena: &TypedArena) -> &mut [A::Item] { - let len = self.len(); - if len == 0 { - return &mut []; - } - // Move the content to the arena by copying and then forgetting it. - let start_ptr = arena.alloc_raw_slice(len); - unsafe { - self.as_ptr().copy_to_nonoverlapping(start_ptr, len); - self.set_len(0); - slice::from_raw_parts_mut(start_ptr, len) - } - } -} - impl TypedArena { /// Allocates an object in the `TypedArena`, returning a reference to it. #[inline] @@ -270,8 +198,35 @@ impl TypedArena { #[inline] pub fn alloc_from_iter>(&self, iter: I) -> &mut [T] { + // This implementation is entirely separate to + // `DroplessIterator::alloc_from_iter`, even though conceptually they + // are the same. + // + // `DroplessIterator` (in the fast case) writes elements from the + // iterator one at a time into the allocated memory. That's easy + // because the elements don't implement `Drop`. But for `TypedArena` + // they do implement `Drop`, which means that if the iterator panics we + // could end up with some allocated-but-uninitialized elements, which + // will then cause UB in `TypedArena::drop`. + // + // Instead we use an approach where any iterator panic will occur + // before the memory is allocated. This function is much less hot than + // `DroplessArena::alloc_from_iter`, so it doesn't need to be + // hyper-optimized. assert!(mem::size_of::() != 0); - iter.alloc_from_iter(self) + + let mut vec: SmallVec<[_; 8]> = iter.into_iter().collect(); + if vec.is_empty() { + return &mut []; + } + // Move the content to the arena by copying and then forgetting it. + let len = vec.len(); + let start_ptr = self.alloc_raw_slice(len); + unsafe { + vec.as_ptr().copy_to_nonoverlapping(start_ptr, len); + vec.set_len(0); + slice::from_raw_parts_mut(start_ptr, len) + } } /// Grows the arena.