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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-17 12:19:03 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-17 12:19:03 +0000 |
commit | 64d98f8ee037282c35007b64c2649055c56af1db (patch) | |
tree | 5492bcf97fce41ee1c0b1cc2add283f3e66cdab0 /library/alloc | |
parent | Adding debian version 1.67.1+dfsg1-1. (diff) | |
download | rustc-64d98f8ee037282c35007b64c2649055c56af1db.tar.xz rustc-64d98f8ee037282c35007b64c2649055c56af1db.zip |
Merging upstream version 1.68.2+dfsg1.
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'library/alloc')
38 files changed, 1071 insertions, 938 deletions
diff --git a/library/alloc/Cargo.toml b/library/alloc/Cargo.toml index 265020209..95c07abf7 100644 --- a/library/alloc/Cargo.toml +++ b/library/alloc/Cargo.toml @@ -13,8 +13,8 @@ core = { path = "../core" } compiler_builtins = { version = "0.1.40", features = ['rustc-dep-of-std'] } [dev-dependencies] -rand = "0.7" -rand_xorshift = "0.2" +rand = { version = "0.8.5", default-features = false, features = ["alloc"] } +rand_xorshift = "0.3.0" [[test]] name = "collectionstests" diff --git a/library/alloc/benches/slice.rs b/library/alloc/benches/slice.rs index bd6f38f2f..b62be9d39 100644 --- a/library/alloc/benches/slice.rs +++ b/library/alloc/benches/slice.rs @@ -1,6 +1,6 @@ use std::{mem, ptr}; -use rand::distributions::{Alphanumeric, Standard}; +use rand::distributions::{Alphanumeric, DistString, Standard}; use rand::Rng; use test::{black_box, Bencher}; @@ -218,7 +218,7 @@ fn gen_strings(len: usize) -> Vec<String> { let mut v = vec![]; for _ in 0..len { let n = rng.gen::<usize>() % 20 + 1; - v.push((&mut rng).sample_iter(&Alphanumeric).take(n).collect()); + v.push(Alphanumeric.sample_string(&mut rng, n)); } v } diff --git a/library/alloc/src/alloc.rs b/library/alloc/src/alloc.rs index e5fbfc557..3a797bd5e 100644 --- a/library/alloc/src/alloc.rs +++ b/library/alloc/src/alloc.rs @@ -20,10 +20,10 @@ use core::marker::Destruct; mod tests; extern "Rust" { - // These are the magic symbols to call the global allocator. rustc generates + // These are the magic symbols to call the global allocator. rustc generates // them to call `__rg_alloc` etc. if there is a `#[global_allocator]` attribute // (the code expanding that attribute macro generates those functions), or to call - // the default implementations in libstd (`__rdl_alloc` etc. in `library/std/src/alloc.rs`) + // the default implementations in std (`__rdl_alloc` etc. in `library/std/src/alloc.rs`) // otherwise. // The rustc fork of LLVM 14 and earlier also special-cases these function names to be able to optimize them // like `malloc`, `realloc`, and `free`, respectively. @@ -353,7 +353,7 @@ pub(crate) const unsafe fn box_free<T: ?Sized, A: ~const Allocator + ~const Dest #[cfg(not(no_global_oom_handling))] extern "Rust" { - // This is the magic symbol to call the global alloc error handler. rustc generates + // This is the magic symbol to call the global alloc error handler. rustc generates // it to call `__rg_oom` if there is a `#[alloc_error_handler]`, or to call the // default implementations below (`__rdl_oom`) otherwise. fn __rust_alloc_error_handler(size: usize, align: usize) -> !; @@ -402,20 +402,20 @@ pub mod __alloc_error_handler { // `#[alloc_error_handler]`. #[rustc_std_internal_symbol] pub unsafe fn __rdl_oom(size: usize, _align: usize) -> ! { - panic!("memory allocation of {size} bytes failed") - } - - #[cfg(bootstrap)] - #[rustc_std_internal_symbol] - pub unsafe fn __rg_oom(size: usize, align: usize) -> ! { - use crate::alloc::Layout; - - let layout = unsafe { Layout::from_size_align_unchecked(size, align) }; extern "Rust" { - #[lang = "oom"] - fn oom_impl(layout: Layout) -> !; + // This symbol is emitted by rustc next to __rust_alloc_error_handler. + // Its value depends on the -Zoom={panic,abort} compiler option. + static __rust_alloc_error_handler_should_panic: u8; + } + + #[allow(unused_unsafe)] + if unsafe { __rust_alloc_error_handler_should_panic != 0 } { + panic!("memory allocation of {size} bytes failed") + } else { + core::panicking::panic_nounwind_fmt(format_args!( + "memory allocation of {size} bytes failed" + )) } - unsafe { oom_impl(layout) } } } diff --git a/library/alloc/src/boxed.rs b/library/alloc/src/boxed.rs index e5f6b0c0c..a563b2587 100644 --- a/library/alloc/src/boxed.rs +++ b/library/alloc/src/boxed.rs @@ -158,7 +158,6 @@ use core::hash::{Hash, Hasher}; #[cfg(not(no_global_oom_handling))] use core::iter::FromIterator; use core::iter::{FusedIterator, Iterator}; -#[cfg(not(bootstrap))] use core::marker::Tuple; use core::marker::{Destruct, Unpin, Unsize}; use core::mem; @@ -954,7 +953,7 @@ impl<T: ?Sized> Box<T> { /// [`Layout`]: crate::Layout #[stable(feature = "box_raw", since = "1.4.0")] #[inline] - #[must_use = "call `drop(from_raw(ptr))` if you intend to drop the `Box`"] + #[must_use = "call `drop(Box::from_raw(ptr))` if you intend to drop the `Box`"] pub unsafe fn from_raw(raw: *mut T) -> Self { unsafe { Self::from_raw_in(raw, Global) } } @@ -1981,17 +1980,6 @@ impl<I: ExactSizeIterator + ?Sized, A: Allocator> ExactSizeIterator for Box<I, A #[stable(feature = "fused", since = "1.26.0")] impl<I: FusedIterator + ?Sized, A: Allocator> FusedIterator for Box<I, A> {} -#[cfg(bootstrap)] -#[stable(feature = "boxed_closure_impls", since = "1.35.0")] -impl<Args, F: FnOnce<Args> + ?Sized, A: Allocator> FnOnce<Args> for Box<F, A> { - type Output = <F as FnOnce<Args>>::Output; - - extern "rust-call" fn call_once(self, args: Args) -> Self::Output { - <F as FnOnce<Args>>::call_once(*self, args) - } -} - -#[cfg(not(bootstrap))] #[stable(feature = "boxed_closure_impls", since = "1.35.0")] impl<Args: Tuple, F: FnOnce<Args> + ?Sized, A: Allocator> FnOnce<Args> for Box<F, A> { type Output = <F as FnOnce<Args>>::Output; @@ -2001,15 +1989,6 @@ impl<Args: Tuple, F: FnOnce<Args> + ?Sized, A: Allocator> FnOnce<Args> for Box<F } } -#[cfg(bootstrap)] -#[stable(feature = "boxed_closure_impls", since = "1.35.0")] -impl<Args, F: FnMut<Args> + ?Sized, A: Allocator> FnMut<Args> for Box<F, A> { - extern "rust-call" fn call_mut(&mut self, args: Args) -> Self::Output { - <F as FnMut<Args>>::call_mut(self, args) - } -} - -#[cfg(not(bootstrap))] #[stable(feature = "boxed_closure_impls", since = "1.35.0")] impl<Args: Tuple, F: FnMut<Args> + ?Sized, A: Allocator> FnMut<Args> for Box<F, A> { extern "rust-call" fn call_mut(&mut self, args: Args) -> Self::Output { @@ -2017,15 +1996,6 @@ impl<Args: Tuple, F: FnMut<Args> + ?Sized, A: Allocator> FnMut<Args> for Box<F, } } -#[cfg(bootstrap)] -#[stable(feature = "boxed_closure_impls", since = "1.35.0")] -impl<Args, F: Fn<Args> + ?Sized, A: Allocator> Fn<Args> for Box<F, A> { - extern "rust-call" fn call(&self, args: Args) -> Self::Output { - <F as Fn<Args>>::call(self, args) - } -} - -#[cfg(not(bootstrap))] #[stable(feature = "boxed_closure_impls", since = "1.35.0")] impl<Args: Tuple, F: Fn<Args> + ?Sized, A: Allocator> Fn<Args> for Box<F, A> { extern "rust-call" fn call(&self, args: Args) -> Self::Output { @@ -2033,7 +2003,7 @@ impl<Args: Tuple, F: Fn<Args> + ?Sized, A: Allocator> Fn<Args> for Box<F, A> { } } -#[unstable(feature = "coerce_unsized", issue = "27732")] +#[unstable(feature = "coerce_unsized", issue = "18598")] impl<T: ?Sized + Unsize<U>, U: ?Sized, A: Allocator> CoerceUnsized<Box<U, A>> for Box<T, A> {} #[unstable(feature = "dispatch_from_dyn", issue = "none")] diff --git a/library/alloc/src/boxed/thin.rs b/library/alloc/src/boxed/thin.rs index c477c4490..c1a82e452 100644 --- a/library/alloc/src/boxed/thin.rs +++ b/library/alloc/src/boxed/thin.rs @@ -226,24 +226,45 @@ impl<H> WithHeader<H> { // - Assumes that either `value` can be dereferenced, or is the // `NonNull::dangling()` we use when both `T` and `H` are ZSTs. unsafe fn drop<T: ?Sized>(&self, value: *mut T) { + struct DropGuard<H> { + ptr: NonNull<u8>, + value_layout: Layout, + _marker: PhantomData<H>, + } + + impl<H> Drop for DropGuard<H> { + fn drop(&mut self) { + unsafe { + // SAFETY: Layout must have been computable if we're in drop + let (layout, value_offset) = + WithHeader::<H>::alloc_layout(self.value_layout).unwrap_unchecked(); + + // Note: Don't deallocate if the layout size is zero, because the pointer + // didn't come from the allocator. + if layout.size() != 0 { + alloc::dealloc(self.ptr.as_ptr().sub(value_offset), layout); + } else { + debug_assert!( + value_offset == 0 + && mem::size_of::<H>() == 0 + && self.value_layout.size() == 0 + ); + } + } + } + } + unsafe { - let value_layout = Layout::for_value_raw(value); - // SAFETY: Layout must have been computable if we're in drop - let (layout, value_offset) = Self::alloc_layout(value_layout).unwrap_unchecked(); + // `_guard` will deallocate the memory when dropped, even if `drop_in_place` unwinds. + let _guard = DropGuard { + ptr: self.0, + value_layout: Layout::for_value_raw(value), + _marker: PhantomData::<H>, + }; // We only drop the value because the Pointee trait requires that the metadata is copy // aka trivially droppable. ptr::drop_in_place::<T>(value); - - // Note: Don't deallocate if the layout size is zero, because the pointer - // didn't come from the allocator. - if layout.size() != 0 { - alloc::dealloc(self.0.as_ptr().sub(value_offset), layout); - } else { - debug_assert!( - value_offset == 0 && mem::size_of::<H>() == 0 && value_layout.size() == 0 - ); - } } } diff --git a/library/alloc/src/collections/binary_heap.rs b/library/alloc/src/collections/binary_heap/mod.rs index 4583bc9a1..0b73b1af4 100644 --- a/library/alloc/src/collections/binary_heap.rs +++ b/library/alloc/src/collections/binary_heap/mod.rs @@ -146,6 +146,7 @@ use core::fmt; use core::iter::{FromIterator, FusedIterator, InPlaceIterable, SourceIter, TrustedLen}; use core::mem::{self, swap, ManuallyDrop}; +use core::num::NonZeroUsize; use core::ops::{Deref, DerefMut}; use core::ptr; @@ -165,12 +166,20 @@ mod tests; /// It is a logic error for an item to be modified in such a way that the /// item's ordering relative to any other item, as determined by the [`Ord`] /// trait, changes while it is in the heap. This is normally only possible -/// through [`Cell`], [`RefCell`], global state, I/O, or unsafe code. The +/// through interior mutability, global state, I/O, or unsafe code. The /// behavior resulting from such a logic error is not specified, but will /// be encapsulated to the `BinaryHeap` that observed the logic error and not /// result in undefined behavior. This could include panics, incorrect results, /// aborts, memory leaks, and non-termination. /// +/// As long as no elements change their relative order while being in the heap +/// as described above, the API of `BinaryHeap` guarantees that the heap +/// invariant remains intact i.e. its methods all behave as documented. For +/// example if a method is documented as iterating in sorted order, that's +/// guaranteed to work as long as elements in the heap have not changed order, +/// even in the presence of closures getting unwinded out of, iterators getting +/// leaked, and similar foolishness. +/// /// # Examples /// /// ``` @@ -279,7 +288,9 @@ pub struct BinaryHeap<T> { #[stable(feature = "binary_heap_peek_mut", since = "1.12.0")] pub struct PeekMut<'a, T: 'a + Ord> { heap: &'a mut BinaryHeap<T>, - sift: bool, + // If a set_len + sift_down are required, this is Some. If a &mut T has not + // yet been exposed to peek_mut()'s caller, it's None. + original_len: Option<NonZeroUsize>, } #[stable(feature = "collection_debug", since = "1.17.0")] @@ -292,7 +303,14 @@ impl<T: Ord + fmt::Debug> fmt::Debug for PeekMut<'_, T> { #[stable(feature = "binary_heap_peek_mut", since = "1.12.0")] impl<T: Ord> Drop for PeekMut<'_, T> { fn drop(&mut self) { - if self.sift { + if let Some(original_len) = self.original_len { + // SAFETY: That's how many elements were in the Vec at the time of + // the PeekMut::deref_mut call, and therefore also at the time of + // the BinaryHeap::peek_mut call. Since the PeekMut did not end up + // getting leaked, we are now undoing the leak amplification that + // the DerefMut prepared for. + unsafe { self.heap.data.set_len(original_len.get()) }; + // SAFETY: PeekMut is only instantiated for non-empty heaps. unsafe { self.heap.sift_down(0) }; } @@ -313,7 +331,26 @@ impl<T: Ord> Deref for PeekMut<'_, T> { impl<T: Ord> DerefMut for PeekMut<'_, T> { fn deref_mut(&mut self) -> &mut T { debug_assert!(!self.heap.is_empty()); - self.sift = true; + + let len = self.heap.len(); + if len > 1 { + // Here we preemptively leak all the rest of the underlying vector + // after the currently max element. If the caller mutates the &mut T + // we're about to give them, and then leaks the PeekMut, all these + // elements will remain leaked. If they don't leak the PeekMut, then + // either Drop or PeekMut::pop will un-leak the vector elements. + // + // This is technique is described throughout several other places in + // the standard library as "leak amplification". + unsafe { + // SAFETY: len > 1 so len != 0. + self.original_len = Some(NonZeroUsize::new_unchecked(len)); + // SAFETY: len > 1 so all this does for now is leak elements, + // which is safe. + self.heap.data.set_len(1); + } + } + // SAFE: PeekMut is only instantiated for non-empty heaps unsafe { self.heap.data.get_unchecked_mut(0) } } @@ -323,9 +360,16 @@ impl<'a, T: Ord> PeekMut<'a, T> { /// Removes the peeked value from the heap and returns it. #[stable(feature = "binary_heap_peek_mut_pop", since = "1.18.0")] pub fn pop(mut this: PeekMut<'a, T>) -> T { - let value = this.heap.pop().unwrap(); - this.sift = false; - value + if let Some(original_len) = this.original_len.take() { + // SAFETY: This is how many elements were in the Vec at the time of + // the BinaryHeap::peek_mut call. + unsafe { this.heap.data.set_len(original_len.get()) }; + + // Unlike in Drop, here we don't also need to do a sift_down even if + // the caller could've mutated the element. It is removed from the + // heap on the next line and pop() is not sensitive to its value. + } + this.heap.pop().unwrap() } } @@ -398,8 +442,9 @@ impl<T: Ord> BinaryHeap<T> { /// Returns a mutable reference to the greatest item in the binary heap, or /// `None` if it is empty. /// - /// Note: If the `PeekMut` value is leaked, the heap may be in an - /// inconsistent state. + /// Note: If the `PeekMut` value is leaked, some heap elements might get + /// leaked along with it, but the remaining elements will remain a valid + /// heap. /// /// # Examples /// @@ -426,7 +471,7 @@ impl<T: Ord> BinaryHeap<T> { /// otherwise it's *O*(1). #[stable(feature = "binary_heap_peek_mut", since = "1.12.0")] pub fn peek_mut(&mut self) -> Option<PeekMut<'_, T>> { - if self.is_empty() { None } else { Some(PeekMut { heap: self, sift: false }) } + if self.is_empty() { None } else { Some(PeekMut { heap: self, original_len: None }) } } /// Removes the greatest item from the binary heap and returns it, or `None` if it diff --git a/library/alloc/src/collections/binary_heap/tests.rs b/library/alloc/src/collections/binary_heap/tests.rs index 5a05215ae..ffbb6c80a 100644 --- a/library/alloc/src/collections/binary_heap/tests.rs +++ b/library/alloc/src/collections/binary_heap/tests.rs @@ -1,8 +1,9 @@ use super::*; use crate::boxed::Box; +use crate::testing::crash_test::{CrashTestDummy, Panic}; +use core::mem; use std::iter::TrustedLen; use std::panic::{catch_unwind, AssertUnwindSafe}; -use std::sync::atomic::{AtomicU32, Ordering}; #[test] fn test_iterator() { @@ -147,6 +148,24 @@ fn test_peek_mut() { } #[test] +fn test_peek_mut_leek() { + let data = vec![4, 2, 7]; + let mut heap = BinaryHeap::from(data); + let mut max = heap.peek_mut().unwrap(); + *max = -1; + + // The PeekMut object's Drop impl would have been responsible for moving the + // -1 out of the max position of the BinaryHeap, but we don't run it. + mem::forget(max); + + // Absent some mitigation like leak amplification, the -1 would incorrectly + // end up in the last position of the returned Vec, with the rest of the + // heap's original contents in front of it in sorted order. + let sorted_vec = heap.into_sorted_vec(); + assert!(sorted_vec.is_sorted(), "{:?}", sorted_vec); +} + +#[test] fn test_peek_mut_pop() { let data = vec![2, 4, 6, 2, 1, 8, 10, 3, 5, 7, 0, 9, 1]; let mut heap = BinaryHeap::from(data); @@ -291,33 +310,83 @@ fn test_drain_sorted() { #[test] fn test_drain_sorted_leak() { - static DROPS: AtomicU32 = AtomicU32::new(0); - - #[derive(Clone, PartialEq, Eq, PartialOrd, Ord)] - struct D(u32, bool); - - impl Drop for D { - fn drop(&mut self) { - DROPS.fetch_add(1, Ordering::SeqCst); - - if self.1 { - panic!("panic in `drop`"); - } - } - } - + let d0 = CrashTestDummy::new(0); + let d1 = CrashTestDummy::new(1); + let d2 = CrashTestDummy::new(2); + let d3 = CrashTestDummy::new(3); + let d4 = CrashTestDummy::new(4); + let d5 = CrashTestDummy::new(5); let mut q = BinaryHeap::from(vec![ - D(0, false), - D(1, false), - D(2, false), - D(3, true), - D(4, false), - D(5, false), + d0.spawn(Panic::Never), + d1.spawn(Panic::Never), + d2.spawn(Panic::Never), + d3.spawn(Panic::InDrop), + d4.spawn(Panic::Never), + d5.spawn(Panic::Never), ]); - catch_unwind(AssertUnwindSafe(|| drop(q.drain_sorted()))).ok(); + catch_unwind(AssertUnwindSafe(|| drop(q.drain_sorted()))).unwrap_err(); + + assert_eq!(d0.dropped(), 1); + assert_eq!(d1.dropped(), 1); + assert_eq!(d2.dropped(), 1); + assert_eq!(d3.dropped(), 1); + assert_eq!(d4.dropped(), 1); + assert_eq!(d5.dropped(), 1); + assert!(q.is_empty()); +} + +#[test] +fn test_drain_forget() { + let a = CrashTestDummy::new(0); + let b = CrashTestDummy::new(1); + let c = CrashTestDummy::new(2); + let mut q = + BinaryHeap::from(vec![a.spawn(Panic::Never), b.spawn(Panic::Never), c.spawn(Panic::Never)]); + + catch_unwind(AssertUnwindSafe(|| { + let mut it = q.drain(); + it.next(); + mem::forget(it); + })) + .unwrap(); + // Behaviour after leaking is explicitly unspecified and order is arbitrary, + // so it's fine if these start failing, but probably worth knowing. + assert!(q.is_empty()); + assert_eq!(a.dropped() + b.dropped() + c.dropped(), 1); + assert_eq!(a.dropped(), 0); + assert_eq!(b.dropped(), 0); + assert_eq!(c.dropped(), 1); + drop(q); + assert_eq!(a.dropped(), 0); + assert_eq!(b.dropped(), 0); + assert_eq!(c.dropped(), 1); +} - assert_eq!(DROPS.load(Ordering::SeqCst), 6); +#[test] +fn test_drain_sorted_forget() { + let a = CrashTestDummy::new(0); + let b = CrashTestDummy::new(1); + let c = CrashTestDummy::new(2); + let mut q = + BinaryHeap::from(vec![a.spawn(Panic::Never), b.spawn(Panic::Never), c.spawn(Panic::Never)]); + + catch_unwind(AssertUnwindSafe(|| { + let mut it = q.drain_sorted(); + it.next(); + mem::forget(it); + })) + .unwrap(); + // Behaviour after leaking is explicitly unspecified, + // so it's fine if these start failing, but probably worth knowing. + assert_eq!(q.len(), 2); + assert_eq!(a.dropped(), 0); + assert_eq!(b.dropped(), 0); + assert_eq!(c.dropped(), 1); + drop(q); + assert_eq!(a.dropped(), 1); + assert_eq!(b.dropped(), 1); + assert_eq!(c.dropped(), 1); } #[test] @@ -415,7 +484,7 @@ fn test_retain() { #[test] #[cfg(not(target_os = "emscripten"))] fn panic_safe() { - use rand::{seq::SliceRandom, thread_rng}; + use rand::seq::SliceRandom; use std::cmp; use std::panic::{self, AssertUnwindSafe}; use std::sync::atomic::{AtomicUsize, Ordering}; @@ -440,7 +509,7 @@ fn panic_safe() { self.0.partial_cmp(&other.0) } } - let mut rng = thread_rng(); + let mut rng = crate::test_helpers::test_rng(); const DATASZ: usize = 32; // Miri is too slow let ntest = if cfg!(miri) { 1 } else { 10 }; diff --git a/library/alloc/src/collections/btree/map/tests.rs b/library/alloc/src/collections/btree/map/tests.rs index 4c372b1d6..700b1463b 100644 --- a/library/alloc/src/collections/btree/map/tests.rs +++ b/library/alloc/src/collections/btree/map/tests.rs @@ -1,12 +1,12 @@ -use super::super::testing::crash_test::{CrashTestDummy, Panic}; -use super::super::testing::ord_chaos::{Cyclic3, Governed, Governor}; -use super::super::testing::rng::DeterministicRng; use super::Entry::{Occupied, Vacant}; use super::*; use crate::boxed::Box; use crate::fmt::Debug; use crate::rc::Rc; use crate::string::{String, ToString}; +use crate::testing::crash_test::{CrashTestDummy, Panic}; +use crate::testing::ord_chaos::{Cyclic3, Governed, Governor}; +use crate::testing::rng::DeterministicRng; use crate::vec::Vec; use std::cmp::Ordering; use std::convert::TryFrom; diff --git a/library/alloc/src/collections/btree/mod.rs b/library/alloc/src/collections/btree/mod.rs index 9d43ac5c5..7552f2fc0 100644 --- a/library/alloc/src/collections/btree/mod.rs +++ b/library/alloc/src/collections/btree/mod.rs @@ -21,6 +21,3 @@ trait Recover<Q: ?Sized> { fn take(&mut self, key: &Q) -> Option<Self::Key>; fn replace(&mut self, key: Self::Key) -> Option<Self::Key>; } - -#[cfg(test)] -mod testing; diff --git a/library/alloc/src/collections/btree/node.rs b/library/alloc/src/collections/btree/node.rs index da766b67a..691246644 100644 --- a/library/alloc/src/collections/btree/node.rs +++ b/library/alloc/src/collections/btree/node.rs @@ -318,7 +318,10 @@ impl<BorrowType: marker::BorrowType, K, V, Type> NodeRef<BorrowType, K, V, Type> pub fn ascend( self, ) -> Result<Handle<NodeRef<BorrowType, K, V, marker::Internal>, marker::Edge>, Self> { - let _ = BorrowType::TRAVERSAL_PERMIT; + const { + assert!(BorrowType::TRAVERSAL_PERMIT); + } + // We need to use raw pointers to nodes because, if BorrowType is marker::ValMut, // there might be outstanding mutable references to values that we must not invalidate. let leaf_ptr: *const _ = Self::as_leaf_ptr(&self); @@ -1003,7 +1006,10 @@ impl<BorrowType: marker::BorrowType, K, V> /// `edge.descend().ascend().unwrap()` and `node.ascend().unwrap().descend()` should /// both, upon success, do nothing. pub fn descend(self) -> NodeRef<BorrowType, K, V, marker::LeafOrInternal> { - let _ = BorrowType::TRAVERSAL_PERMIT; + const { + assert!(BorrowType::TRAVERSAL_PERMIT); + } + // We need to use raw pointers to nodes because, if BorrowType is // marker::ValMut, there might be outstanding mutable references to // values that we must not invalidate. There's no worry accessing the @@ -1666,17 +1672,17 @@ pub mod marker { pub struct ValMut<'a>(PhantomData<&'a mut ()>); pub trait BorrowType { - // If node references of this borrow type allow traversing to other - // nodes in the tree, this constant can be evaluated. Thus reading it - // serves as a compile-time assertion. - const TRAVERSAL_PERMIT: () = (); + /// If node references of this borrow type allow traversing to other + /// nodes in the tree, this constant is set to `true`. It can be used + /// for a compile-time assertion. + const TRAVERSAL_PERMIT: bool = true; } impl BorrowType for Owned { - // Reject evaluation, because traversal isn't needed. Instead traversal - // happens using the result of `borrow_mut`. - // By disabling traversal, and only creating new references to roots, - // we know that every reference of the `Owned` type is to a root node. - const TRAVERSAL_PERMIT: () = panic!(); + /// Reject traversal, because it isn't needed. Instead traversal + /// happens using the result of `borrow_mut`. + /// By disabling traversal, and only creating new references to roots, + /// we know that every reference of the `Owned` type is to a root node. + const TRAVERSAL_PERMIT: bool = false; } impl BorrowType for Dying {} impl<'a> BorrowType for Immut<'a> {} diff --git a/library/alloc/src/collections/btree/set/tests.rs b/library/alloc/src/collections/btree/set/tests.rs index 502d3e1d1..7b8d41a60 100644 --- a/library/alloc/src/collections/btree/set/tests.rs +++ b/library/alloc/src/collections/btree/set/tests.rs @@ -1,6 +1,6 @@ -use super::super::testing::crash_test::{CrashTestDummy, Panic}; -use super::super::testing::rng::DeterministicRng; use super::*; +use crate::testing::crash_test::{CrashTestDummy, Panic}; +use crate::testing::rng::DeterministicRng; use crate::vec::Vec; use std::cmp::Ordering; use std::hash::{Hash, Hasher}; diff --git a/library/alloc/src/collections/linked_list/tests.rs b/library/alloc/src/collections/linked_list/tests.rs index f8fbfa1bf..04594d55b 100644 --- a/library/alloc/src/collections/linked_list/tests.rs +++ b/library/alloc/src/collections/linked_list/tests.rs @@ -1,10 +1,11 @@ use super::*; +use crate::testing::crash_test::{CrashTestDummy, Panic}; use crate::vec::Vec; use std::panic::{catch_unwind, AssertUnwindSafe}; use std::thread; -use rand::{thread_rng, RngCore}; +use rand::RngCore; #[test] fn test_basic() { @@ -480,12 +481,12 @@ fn test_split_off_2() { } } -fn fuzz_test(sz: i32) { +fn fuzz_test(sz: i32, rng: &mut impl RngCore) { let mut m: LinkedList<_> = LinkedList::new(); let mut v = vec![]; for i in 0..sz { check_links(&m); - let r: u8 = thread_rng().next_u32() as u8; + let r: u8 = rng.next_u32() as u8; match r % 6 { 0 => { m.pop_back(); @@ -520,11 +521,12 @@ fn fuzz_test(sz: i32) { #[test] fn test_fuzz() { + let mut rng = crate::test_helpers::test_rng(); for _ in 0..25 { - fuzz_test(3); - fuzz_test(16); + fuzz_test(3, &mut rng); + fuzz_test(16, &mut rng); #[cfg(not(miri))] // Miri is too slow - fuzz_test(189); + fuzz_test(189, &mut rng); } } @@ -984,35 +986,34 @@ fn drain_filter_complex() { #[test] fn drain_filter_drop_panic_leak() { - static mut DROPS: i32 = 0; - - struct D(bool); - - impl Drop for D { - fn drop(&mut self) { - unsafe { - DROPS += 1; - } - - if self.0 { - panic!("panic in `drop`"); - } - } - } - + let d0 = CrashTestDummy::new(0); + let d1 = CrashTestDummy::new(1); + let d2 = CrashTestDummy::new(2); + let d3 = CrashTestDummy::new(3); + let d4 = CrashTestDummy::new(4); + let d5 = CrashTestDummy::new(5); + let d6 = CrashTestDummy::new(6); + let d7 = CrashTestDummy::new(7); let mut q = LinkedList::new(); - q.push_back(D(false)); - q.push_back(D(false)); - q.push_back(D(false)); - q.push_back(D(false)); - q.push_back(D(false)); - q.push_front(D(false)); - q.push_front(D(true)); - q.push_front(D(false)); - - catch_unwind(AssertUnwindSafe(|| drop(q.drain_filter(|_| true)))).ok(); - - assert_eq!(unsafe { DROPS }, 8); + q.push_back(d3.spawn(Panic::Never)); + q.push_back(d4.spawn(Panic::Never)); + q.push_back(d5.spawn(Panic::Never)); + q.push_back(d6.spawn(Panic::Never)); + q.push_back(d7.spawn(Panic::Never)); + q.push_front(d2.spawn(Panic::Never)); + q.push_front(d1.spawn(Panic::InDrop)); + q.push_front(d0.spawn(Panic::Never)); + + catch_unwind(AssertUnwindSafe(|| drop(q.drain_filter(|_| true)))).unwrap_err(); + + assert_eq!(d0.dropped(), 1); + assert_eq!(d1.dropped(), 1); + assert_eq!(d2.dropped(), 1); + assert_eq!(d3.dropped(), 1); + assert_eq!(d4.dropped(), 1); + assert_eq!(d5.dropped(), 1); + assert_eq!(d6.dropped(), 1); + assert_eq!(d7.dropped(), 1); assert!(q.is_empty()); } diff --git a/library/alloc/src/collections/vec_deque/into_iter.rs b/library/alloc/src/collections/vec_deque/into_iter.rs index 55f6138cd..e54880e86 100644 --- a/library/alloc/src/collections/vec_deque/into_iter.rs +++ b/library/alloc/src/collections/vec_deque/into_iter.rs @@ -25,6 +25,10 @@ impl<T, A: Allocator> IntoIter<T, A> { pub(super) fn new(inner: VecDeque<T, A>) -> Self { IntoIter { inner } } + + pub(super) fn into_vecdeque(self) -> VecDeque<T, A> { + self.inner + } } #[stable(feature = "collection_debug", since = "1.17.0")] diff --git a/library/alloc/src/collections/vec_deque/mod.rs b/library/alloc/src/collections/vec_deque/mod.rs index 4866c53e7..8317ac431 100644 --- a/library/alloc/src/collections/vec_deque/mod.rs +++ b/library/alloc/src/collections/vec_deque/mod.rs @@ -55,6 +55,10 @@ use self::spec_extend::SpecExtend; mod spec_extend; +use self::spec_from_iter::SpecFromIter; + +mod spec_from_iter; + #[cfg(test)] mod tests; @@ -531,12 +535,13 @@ impl<T> VecDeque<T> { /// /// let deque: VecDeque<u32> = VecDeque::new(); /// ``` - // FIXME: This should probably be const #[inline] #[stable(feature = "rust1", since = "1.0.0")] + #[rustc_const_stable(feature = "const_vec_deque_new", since = "1.68.0")] #[must_use] - pub fn new() -> VecDeque<T> { - VecDeque::new_in(Global) + pub const fn new() -> VecDeque<T> { + // FIXME: This should just be `VecDeque::new_in(Global)` once that hits stable. + VecDeque { head: 0, len: 0, buf: RawVec::NEW } } /// Creates an empty deque with space for at least `capacity` elements. @@ -586,6 +591,38 @@ impl<T, A: Allocator> VecDeque<T, A> { VecDeque { head: 0, len: 0, buf: RawVec::with_capacity_in(capacity, alloc) } } + /// Creates a `VecDeque` from a raw allocation, when the initialized + /// part of that allocation forms a *contiguous* subslice thereof. + /// + /// For use by `vec::IntoIter::into_vecdeque` + /// + /// # Safety + /// + /// All the usual requirements on the allocated memory like in + /// `Vec::from_raw_parts_in`, but takes a *range* of elements that are + /// initialized rather than only supporting `0..len`. Requires that + /// `initialized.start` ≤ `initialized.end` ≤ `capacity`. + #[inline] + pub(crate) unsafe fn from_contiguous_raw_parts_in( + ptr: *mut T, + initialized: Range<usize>, + capacity: usize, + alloc: A, + ) -> Self { + debug_assert!(initialized.start <= initialized.end); + debug_assert!(initialized.end <= capacity); + + // SAFETY: Our safety precondition guarantees the range length won't wrap, + // and that the allocation is valid for use in `RawVec`. + unsafe { + VecDeque { + head: initialized.start, + len: initialized.end.unchecked_sub(initialized.start), + buf: RawVec::from_raw_parts_in(ptr, capacity, alloc), + } + } + } + /// Provides a reference to the element at the given index. /// /// Element at index 0 is the front of the queue. @@ -599,6 +636,7 @@ impl<T, A: Allocator> VecDeque<T, A> { /// buf.push_back(3); /// buf.push_back(4); /// buf.push_back(5); + /// buf.push_back(6); /// assert_eq!(buf.get(1), Some(&4)); /// ``` #[stable(feature = "rust1", since = "1.0.0")] @@ -624,10 +662,11 @@ impl<T, A: Allocator> VecDeque<T, A> { /// buf.push_back(3); /// buf.push_back(4); /// buf.push_back(5); + /// buf.push_back(6); + /// assert_eq!(buf[1], 4); /// if let Some(elem) = buf.get_mut(1) { /// *elem = 7; /// } - /// /// assert_eq!(buf[1], 7); /// ``` #[stable(feature = "rust1", since = "1.0.0")] @@ -905,65 +944,72 @@ impl<T, A: Allocator> VecDeque<T, A> { return; } - if target_cap < self.capacity() { - // There are three cases of interest: - // All elements are out of desired bounds - // Elements are contiguous, and head is out of desired bounds - // Elements are discontiguous, and tail is out of desired bounds + // There are three cases of interest: + // All elements are out of desired bounds + // Elements are contiguous, and tail is out of desired bounds + // Elements are discontiguous + // + // At all other times, element positions are unaffected. + + // `head` and `len` are at most `isize::MAX` and `target_cap < self.capacity()`, so nothing can + // overflow. + let tail_outside = (target_cap + 1..=self.capacity()).contains(&(self.head + self.len)); + + if self.len == 0 { + self.head = 0; + } else if self.head >= target_cap && tail_outside { + // Head and tail are both out of bounds, so copy all of them to the front. // - // At all other times, element positions are unaffected. + // H := head + // L := last element + // H L + // [. . . . . . . . o o o o o o o . ] + // H L + // [o o o o o o o . ] + unsafe { + // nonoverlapping because `self.head >= target_cap >= self.len`. + self.copy_nonoverlapping(self.head, 0, self.len); + } + self.head = 0; + } else if self.head < target_cap && tail_outside { + // Head is in bounds, tail is out of bounds. + // Copy the overflowing part to the beginning of the + // buffer. This won't overlap because `target_cap >= self.len`. // - // Indicates that elements at the head should be moved. - - let tail_outside = (target_cap + 1..=self.capacity()).contains(&(self.head + self.len)); - // Move elements from out of desired bounds (positions after target_cap) - if self.len == 0 { - self.head = 0; - } else if self.head >= target_cap && tail_outside { - // H := head - // L := last element - // H L - // [. . . . . . . . o o o o o o o . ] - // H L - // [o o o o o o o . ] - unsafe { - // nonoverlapping because self.head >= target_cap >= self.len - self.copy_nonoverlapping(self.head, 0, self.len); - } - self.head = 0; - } else if self.head < target_cap && tail_outside { - // H := head - // L := last element - // H L - // [. . . o o o o o o o . . . . . . ] - // L H - // [o o . o o o o o ] - let len = self.head + self.len - target_cap; - unsafe { - self.copy_nonoverlapping(target_cap, 0, len); - } - } else if self.head >= target_cap { - // H := head - // L := last element - // L H - // [o o o o o . . . . . . . . . o o ] - // L H - // [o o o o o . o o ] - let len = self.capacity() - self.head; - let new_head = target_cap - len; - unsafe { - // can't use copy_nonoverlapping here for the same reason - // as in `handle_capacity_increase()` - self.copy(self.head, new_head, len); - } - self.head = new_head; + // H := head + // L := last element + // H L + // [. . . o o o o o o o . . . . . . ] + // L H + // [o o . o o o o o ] + let len = self.head + self.len - target_cap; + unsafe { + self.copy_nonoverlapping(target_cap, 0, len); } - - self.buf.shrink_to_fit(target_cap); - - debug_assert!(self.head < self.capacity() || self.capacity() == 0); - debug_assert!(self.len <= self.capacity()); + } else if !self.is_contiguous() { + // The head slice is at least partially out of bounds, tail is in bounds. + // Copy the head backwards so it lines up with the target capacity. + // This won't overlap because `target_cap >= self.len`. + // + // H := head + // L := last element + // L H + // [o o o o o . . . . . . . . . o o ] + // L H + // [o o o o o . o o ] + let head_len = self.capacity() - self.head; + let new_head = target_cap - head_len; + unsafe { + // can't use `copy_nonoverlapping()` here because the new and old + // regions for the head might overlap. + self.copy(self.head, new_head, head_len); + } + self.head = new_head; } + self.buf.shrink_to_fit(target_cap); + + debug_assert!(self.head < self.capacity() || self.capacity() == 0); + debug_assert!(self.len <= self.capacity()); } /// Shortens the deque, keeping the first `len` elements and dropping @@ -1878,7 +1924,7 @@ impl<T, A: Allocator> VecDeque<T, A> { #[stable(feature = "append", since = "1.4.0")] pub fn append(&mut self, other: &mut Self) { if T::IS_ZST { - self.len += other.len; + self.len = self.len.checked_add(other.len).expect("capacity overflow"); other.len = 0; other.head = 0; return; @@ -2505,7 +2551,7 @@ impl<T, A: Allocator> VecDeque<T, A> { /// The deque is assumed to be partitioned according to the given predicate. /// This means that all elements for which the predicate returns true are at the start of the deque /// and all elements for which the predicate returns false are at the end. - /// For example, [7, 15, 3, 5, 4, 12, 6] is a partitioned under the predicate x % 2 != 0 + /// For example, `[7, 15, 3, 5, 4, 12, 6]` is partitioned under the predicate `x % 2 != 0` /// (all odd numbers are at the start, all even at the end). /// /// If the deque is not partitioned, the returned result is unspecified and meaningless, @@ -2699,18 +2745,8 @@ impl<T, A: Allocator> IndexMut<usize> for VecDeque<T, A> { #[stable(feature = "rust1", since = "1.0.0")] impl<T> FromIterator<T> for VecDeque<T> { - #[inline] fn from_iter<I: IntoIterator<Item = T>>(iter: I) -> VecDeque<T> { - // Since converting is O(1) now, might as well re-use that logic - // (including things like the `vec::IntoIter`→`Vec` specialization) - // especially as that could save us some monomorphiziation work - // if one uses the same iterators (like slice ones) with both. - return from_iter_via_vec(iter.into_iter()); - - #[inline] - fn from_iter_via_vec<U>(iter: impl Iterator<Item = U>) -> VecDeque<U> { - Vec::from_iter(iter).into() - } + SpecFromIter::spec_from_iter(iter.into_iter()) } } @@ -2794,9 +2830,9 @@ impl<T, A: Allocator> From<Vec<T, A>> for VecDeque<T, A> { /// [`Vec<T>`]: crate::vec::Vec /// [`VecDeque<T>`]: crate::collections::VecDeque /// - /// In its current implementation, this is a very cheap - /// conversion. This isn't yet a guarantee though, and - /// shouldn't be relied on. + /// This conversion is guaranteed to run in *O*(1) time + /// and to not re-allocate the `Vec`'s buffer or allocate + /// any additional memory. #[inline] fn from(other: Vec<T, A>) -> Self { let (ptr, len, cap, alloc) = other.into_raw_parts_with_alloc(); diff --git a/library/alloc/src/collections/vec_deque/spec_from_iter.rs b/library/alloc/src/collections/vec_deque/spec_from_iter.rs new file mode 100644 index 000000000..7650492eb --- /dev/null +++ b/library/alloc/src/collections/vec_deque/spec_from_iter.rs @@ -0,0 +1,33 @@ +use super::{IntoIter, VecDeque}; + +/// Specialization trait used for `VecDeque::from_iter` +pub(super) trait SpecFromIter<T, I> { + fn spec_from_iter(iter: I) -> Self; +} + +impl<T, I> SpecFromIter<T, I> for VecDeque<T> +where + I: Iterator<Item = T>, +{ + default fn spec_from_iter(iterator: I) -> Self { + // Since converting is O(1) now, just re-use the `Vec` logic for + // anything where we can't do something extra-special for `VecDeque`, + // especially as that could save us some monomorphiziation work + // if one uses the same iterators (like slice ones) with both. + crate::vec::Vec::from_iter(iterator).into() + } +} + +impl<T> SpecFromIter<T, crate::vec::IntoIter<T>> for VecDeque<T> { + #[inline] + fn spec_from_iter(iterator: crate::vec::IntoIter<T>) -> Self { + iterator.into_vecdeque() + } +} + +impl<T> SpecFromIter<T, IntoIter<T>> for VecDeque<T> { + #[inline] + fn spec_from_iter(iterator: IntoIter<T>) -> Self { + iterator.into_vecdeque() + } +} diff --git a/library/alloc/src/collections/vec_deque/tests.rs b/library/alloc/src/collections/vec_deque/tests.rs index 220ad71be..205a8ff3c 100644 --- a/library/alloc/src/collections/vec_deque/tests.rs +++ b/library/alloc/src/collections/vec_deque/tests.rs @@ -749,6 +749,48 @@ fn test_drain() { } #[test] +fn issue_108453() { + let mut deque = VecDeque::with_capacity(10); + + deque.push_back(1u8); + deque.push_back(2); + deque.push_back(3); + + deque.push_front(10); + deque.push_front(9); + + deque.shrink_to(9); + + assert_eq!(deque.into_iter().collect::<Vec<_>>(), vec![9, 10, 1, 2, 3]); +} + +#[test] +fn test_shrink_to() { + // test deques with capacity 16 with all possible head positions, lengths and target capacities. + let cap = 16; + + for len in 0..cap { + for head in 0..cap { + let expected = (1..=len).collect::<VecDeque<_>>(); + + for target_cap in len..cap { + let mut deque = VecDeque::with_capacity(cap); + // currently, `with_capacity` always allocates the exact capacity if it's greater than 8. + assert_eq!(deque.capacity(), cap); + + // we can let the head point anywhere in the buffer since the deque is empty. + deque.head = head; + deque.extend(1..=len); + + deque.shrink_to(target_cap); + + assert_eq!(deque, expected); + } + } + } +} + +#[test] fn test_shrink_to_fit() { // This test checks that every single combination of head and tail position, // is tested. Capacity 15 should be large enough to cover every case. diff --git a/library/alloc/src/fmt.rs b/library/alloc/src/fmt.rs index 799ce9d5d..eadb35cb9 100644 --- a/library/alloc/src/fmt.rs +++ b/library/alloc/src/fmt.rs @@ -419,7 +419,7 @@ //! // documentation for details, and the function `pad` can be used //! // to pad strings. //! let decimals = f.precision().unwrap_or(3); -//! let string = format!("{:.*}", decimals, magnitude); +//! let string = format!("{magnitude:.decimals$}"); //! f.pad_integral(true, "", &string) //! } //! } @@ -518,7 +518,7 @@ //! write!(&mut some_writer, "{}", format_args!("print with a {}", "macro")); //! //! fn my_fmt_fn(args: fmt::Arguments) { -//! write!(&mut io::stdout(), "{}", args); +//! write!(&mut io::stdout(), "{args}"); //! } //! my_fmt_fn(format_args!(", or a {} too", "function")); //! ``` diff --git a/library/alloc/src/lib.rs b/library/alloc/src/lib.rs index 96960d43f..ca75c3895 100644 --- a/library/alloc/src/lib.rs +++ b/library/alloc/src/lib.rs @@ -3,7 +3,7 @@ //! This library provides smart pointers and collections for managing //! heap-allocated values. //! -//! This library, like libcore, normally doesn’t need to be used directly +//! This library, like core, normally doesn’t need to be used directly //! since its contents are re-exported in the [`std` crate](../std/index.html). //! Crates that use the `#![no_std]` attribute however will typically //! not depend on `std`, so they’d use this crate instead. @@ -75,7 +75,7 @@ ))] #![no_std] #![needs_allocator] -// To run liballoc tests without x.py without ending up with two copies of liballoc, Miri needs to be +// To run alloc tests without x.py without ending up with two copies of alloc, Miri needs to be // able to "empty" this crate. See <https://github.com/rust-lang/miri-test-libstd/issues/4>. // rustc itself never sets the feature, so this line has no affect there. #![cfg(any(not(feature = "miri-test-libstd"), test, doctest))] @@ -106,10 +106,12 @@ #![feature(const_size_of_val)] #![feature(const_align_of_val)] #![feature(const_ptr_read)] +#![feature(const_maybe_uninit_zeroed)] #![feature(const_maybe_uninit_write)] #![feature(const_maybe_uninit_as_mut_ptr)] #![feature(const_refs_to_cell)] #![feature(core_intrinsics)] +#![feature(core_panic)] #![feature(const_eval_select)] #![feature(const_pin)] #![feature(const_waker)] @@ -122,7 +124,9 @@ #![feature(fmt_internals)] #![feature(fn_traits)] #![feature(hasher_prefixfree_extras)] +#![feature(inline_const)] #![feature(inplace_iteration)] +#![cfg_attr(test, feature(is_sorted))] #![feature(iter_advance_by)] #![feature(iter_next_chunk)] #![feature(iter_repeat_n)] @@ -152,7 +156,7 @@ #![feature(trusted_len)] #![feature(trusted_random_access)] #![feature(try_trait_v2)] -#![cfg_attr(not(bootstrap), feature(tuple_trait))] +#![feature(tuple_trait)] #![feature(unchecked_math)] #![feature(unicode_internals)] #![feature(unsize)] @@ -190,6 +194,7 @@ #![feature(unsized_fn_params)] #![feature(c_unwind)] #![feature(with_negative_coherence)] +#![cfg_attr(test, feature(panic_update_hook))] // // Rustdoc features: #![feature(doc_cfg)] @@ -206,6 +211,8 @@ extern crate std; #[cfg(test)] extern crate test; +#[cfg(test)] +mod testing; // Module with internal macros used by other modules (needs to be included before other modules). #[macro_use] @@ -251,3 +258,20 @@ pub mod vec; pub mod __export { pub use core::format_args; } + +#[cfg(test)] +#[allow(dead_code)] // Not used in all configurations +pub(crate) mod test_helpers { + /// Copied from `std::test_helpers::test_rng`, since these tests rely on the + /// seed not being the same for every RNG invocation too. + pub(crate) fn test_rng() -> rand_xorshift::XorShiftRng { + use std::hash::{BuildHasher, Hash, Hasher}; + let mut hasher = std::collections::hash_map::RandomState::new().build_hasher(); + std::panic::Location::caller().hash(&mut hasher); + let hc64 = hasher.finish(); + let seed_vec = + hc64.to_le_bytes().into_iter().chain(0u8..8).collect::<crate::vec::Vec<u8>>(); + let seed: [u8; 16] = seed_vec.as_slice().try_into().unwrap(); + rand::SeedableRng::from_seed(seed) + } +} diff --git a/library/alloc/src/rc.rs b/library/alloc/src/rc.rs index 38e31b180..c9aa23fc4 100644 --- a/library/alloc/src/rc.rs +++ b/library/alloc/src/rc.rs @@ -336,7 +336,7 @@ impl<T: RefUnwindSafe + ?Sized> UnwindSafe for Rc<T> {} #[stable(feature = "rc_ref_unwind_safe", since = "1.58.0")] impl<T: RefUnwindSafe + ?Sized> RefUnwindSafe for Rc<T> {} -#[unstable(feature = "coerce_unsized", issue = "27732")] +#[unstable(feature = "coerce_unsized", issue = "18598")] impl<T: ?Sized + Unsize<U>, U: ?Sized> CoerceUnsized<Rc<U>> for Rc<T> {} #[unstable(feature = "dispatch_from_dyn", issue = "none")] @@ -2179,7 +2179,7 @@ pub struct Weak<T: ?Sized> { // This is a `NonNull` to allow optimizing the size of this type in enums, // but it is not necessarily a valid pointer. // `Weak::new` sets this to `usize::MAX` so that it doesn’t need - // to allocate space on the heap. That's not a value a real pointer + // to allocate space on the heap. That's not a value a real pointer // will ever have because RcBox has alignment at least 2. // This is only possible when `T: Sized`; unsized `T` never dangle. ptr: NonNull<RcBox<T>>, @@ -2190,7 +2190,7 @@ impl<T: ?Sized> !marker::Send for Weak<T> {} #[stable(feature = "rc_weak", since = "1.4.0")] impl<T: ?Sized> !marker::Sync for Weak<T> {} -#[unstable(feature = "coerce_unsized", issue = "27732")] +#[unstable(feature = "coerce_unsized", issue = "18598")] impl<T: ?Sized + Unsize<U>, U: ?Sized> CoerceUnsized<Weak<U>> for Weak<T> {} #[unstable(feature = "dispatch_from_dyn", issue = "none")] @@ -2561,7 +2561,7 @@ impl<T: ?Sized> Clone for Weak<T> { } #[stable(feature = "rc_weak", since = "1.4.0")] -impl<T: ?Sized + fmt::Debug> fmt::Debug for Weak<T> { +impl<T: ?Sized> fmt::Debug for Weak<T> { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { write!(f, "(Weak)") } diff --git a/library/alloc/src/slice.rs b/library/alloc/src/slice.rs index 1b61ede34..fecacc2bb 100644 --- a/library/alloc/src/slice.rs +++ b/library/alloc/src/slice.rs @@ -19,15 +19,20 @@ use core::cmp::Ordering::{self, Less}; use core::mem::{self, SizedTypeProperties}; #[cfg(not(no_global_oom_handling))] use core::ptr; +#[cfg(not(no_global_oom_handling))] +use core::slice::sort; use crate::alloc::Allocator; #[cfg(not(no_global_oom_handling))] -use crate::alloc::Global; +use crate::alloc::{self, Global}; #[cfg(not(no_global_oom_handling))] use crate::borrow::ToOwned; use crate::boxed::Box; use crate::vec::Vec; +#[cfg(test)] +mod tests; + #[unstable(feature = "slice_range", issue = "76393")] pub use core::slice::range; #[unstable(feature = "array_chunks", issue = "74985")] @@ -203,7 +208,7 @@ impl<T> [T] { where T: Ord, { - merge_sort(self, T::lt); + stable_sort(self, T::lt); } /// Sorts the slice with a comparator function. @@ -259,7 +264,7 @@ impl<T> [T] { where F: FnMut(&T, &T) -> Ordering, { - merge_sort(self, |a, b| compare(a, b) == Less); + stable_sort(self, |a, b| compare(a, b) == Less); } /// Sorts the slice with a key extraction function. @@ -302,7 +307,7 @@ impl<T> [T] { F: FnMut(&T) -> K, K: Ord, { - merge_sort(self, |a, b| f(a).lt(&f(b))); + stable_sort(self, |a, b| f(a).lt(&f(b))); } /// Sorts the slice with a key extraction function. @@ -653,7 +658,7 @@ impl [u8] { /// /// ```error /// error[E0207]: the type parameter `T` is not constrained by the impl trait, self type, or predica -/// --> src/liballoc/slice.rs:608:6 +/// --> library/alloc/src/slice.rs:608:6 /// | /// 608 | impl<T: Clone, V: Borrow<[T]>> Concat for [V] { /// | ^ unconstrained type parameter @@ -809,324 +814,52 @@ impl<T: Clone> ToOwned for [T] { // Sorting //////////////////////////////////////////////////////////////////////////////// -/// Inserts `v[0]` into pre-sorted sequence `v[1..]` so that whole `v[..]` becomes sorted. -/// -/// This is the integral subroutine of insertion sort. -#[cfg(not(no_global_oom_handling))] -fn insert_head<T, F>(v: &mut [T], is_less: &mut F) -where - F: FnMut(&T, &T) -> bool, -{ - if v.len() >= 2 && is_less(&v[1], &v[0]) { - unsafe { - // There are three ways to implement insertion here: - // - // 1. Swap adjacent elements until the first one gets to its final destination. - // However, this way we copy data around more than is necessary. If elements are big - // structures (costly to copy), this method will be slow. - // - // 2. Iterate until the right place for the first element is found. Then shift the - // elements succeeding it to make room for it and finally place it into the - // remaining hole. This is a good method. - // - // 3. Copy the first element into a temporary variable. Iterate until the right place - // for it is found. As we go along, copy every traversed element into the slot - // preceding it. Finally, copy data from the temporary variable into the remaining - // hole. This method is very good. Benchmarks demonstrated slightly better - // performance than with the 2nd method. - // - // All methods were benchmarked, and the 3rd showed best results. So we chose that one. - let tmp = mem::ManuallyDrop::new(ptr::read(&v[0])); - - // Intermediate state of the insertion process is always tracked by `hole`, which - // serves two purposes: - // 1. Protects integrity of `v` from panics in `is_less`. - // 2. Fills the remaining hole in `v` in the end. - // - // Panic safety: - // - // If `is_less` panics at any point during the process, `hole` will get dropped and - // fill the hole in `v` with `tmp`, thus ensuring that `v` still holds every object it - // initially held exactly once. - let mut hole = InsertionHole { src: &*tmp, dest: &mut v[1] }; - ptr::copy_nonoverlapping(&v[1], &mut v[0], 1); - - for i in 2..v.len() { - if !is_less(&v[i], &*tmp) { - break; - } - ptr::copy_nonoverlapping(&v[i], &mut v[i - 1], 1); - hole.dest = &mut v[i]; - } - // `hole` gets dropped and thus copies `tmp` into the remaining hole in `v`. - } - } - - // When dropped, copies from `src` into `dest`. - struct InsertionHole<T> { - src: *const T, - dest: *mut T, - } - - impl<T> Drop for InsertionHole<T> { - fn drop(&mut self) { - unsafe { - ptr::copy_nonoverlapping(self.src, self.dest, 1); - } - } - } -} - -/// Merges non-decreasing runs `v[..mid]` and `v[mid..]` using `buf` as temporary storage, and -/// stores the result into `v[..]`. -/// -/// # Safety -/// -/// The two slices must be non-empty and `mid` must be in bounds. Buffer `buf` must be long enough -/// to hold a copy of the shorter slice. Also, `T` must not be a zero-sized type. -#[cfg(not(no_global_oom_handling))] -unsafe fn merge<T, F>(v: &mut [T], mid: usize, buf: *mut T, is_less: &mut F) -where - F: FnMut(&T, &T) -> bool, -{ - let len = v.len(); - let v = v.as_mut_ptr(); - let (v_mid, v_end) = unsafe { (v.add(mid), v.add(len)) }; - - // The merge process first copies the shorter run into `buf`. Then it traces the newly copied - // run and the longer run forwards (or backwards), comparing their next unconsumed elements and - // copying the lesser (or greater) one into `v`. - // - // As soon as the shorter run is fully consumed, the process is done. If the longer run gets - // consumed first, then we must copy whatever is left of the shorter run into the remaining - // hole in `v`. - // - // Intermediate state of the process is always tracked by `hole`, which serves two purposes: - // 1. Protects integrity of `v` from panics in `is_less`. - // 2. Fills the remaining hole in `v` if the longer run gets consumed first. - // - // Panic safety: - // - // If `is_less` panics at any point during the process, `hole` will get dropped and fill the - // hole in `v` with the unconsumed range in `buf`, thus ensuring that `v` still holds every - // object it initially held exactly once. - let mut hole; - - if mid <= len - mid { - // The left run is shorter. - unsafe { - ptr::copy_nonoverlapping(v, buf, mid); - hole = MergeHole { start: buf, end: buf.add(mid), dest: v }; - } - - // Initially, these pointers point to the beginnings of their arrays. - let left = &mut hole.start; - let mut right = v_mid; - let out = &mut hole.dest; - - while *left < hole.end && right < v_end { - // Consume the lesser side. - // If equal, prefer the left run to maintain stability. - unsafe { - let to_copy = if is_less(&*right, &**left) { - get_and_increment(&mut right) - } else { - get_and_increment(left) - }; - ptr::copy_nonoverlapping(to_copy, get_and_increment(out), 1); - } - } - } else { - // The right run is shorter. - unsafe { - ptr::copy_nonoverlapping(v_mid, buf, len - mid); - hole = MergeHole { start: buf, end: buf.add(len - mid), dest: v_mid }; - } - - // Initially, these pointers point past the ends of their arrays. - let left = &mut hole.dest; - let right = &mut hole.end; - let mut out = v_end; - - while v < *left && buf < *right { - // Consume the greater side. - // If equal, prefer the right run to maintain stability. - unsafe { - let to_copy = if is_less(&*right.sub(1), &*left.sub(1)) { - decrement_and_get(left) - } else { - decrement_and_get(right) - }; - ptr::copy_nonoverlapping(to_copy, decrement_and_get(&mut out), 1); - } - } - } - // Finally, `hole` gets dropped. If the shorter run was not fully consumed, whatever remains of - // it will now be copied into the hole in `v`. - - unsafe fn get_and_increment<T>(ptr: &mut *mut T) -> *mut T { - let old = *ptr; - *ptr = unsafe { ptr.add(1) }; - old - } - - unsafe fn decrement_and_get<T>(ptr: &mut *mut T) -> *mut T { - *ptr = unsafe { ptr.sub(1) }; - *ptr - } - - // When dropped, copies the range `start..end` into `dest..`. - struct MergeHole<T> { - start: *mut T, - end: *mut T, - dest: *mut T, - } - - impl<T> Drop for MergeHole<T> { - fn drop(&mut self) { - // `T` is not a zero-sized type, and these are pointers into a slice's elements. - unsafe { - let len = self.end.sub_ptr(self.start); - ptr::copy_nonoverlapping(self.start, self.dest, len); - } - } - } -} - -/// This merge sort borrows some (but not all) ideas from TimSort, which is described in detail -/// [here](https://github.com/python/cpython/blob/main/Objects/listsort.txt). -/// -/// The algorithm identifies strictly descending and non-descending subsequences, which are called -/// natural runs. There is a stack of pending runs yet to be merged. Each newly found run is pushed -/// onto the stack, and then some pairs of adjacent runs are merged until these two invariants are -/// satisfied: -/// -/// 1. for every `i` in `1..runs.len()`: `runs[i - 1].len > runs[i].len` -/// 2. for every `i` in `2..runs.len()`: `runs[i - 2].len > runs[i - 1].len + runs[i].len` -/// -/// The invariants ensure that the total running time is *O*(*n* \* log(*n*)) worst-case. +#[inline] #[cfg(not(no_global_oom_handling))] -fn merge_sort<T, F>(v: &mut [T], mut is_less: F) +fn stable_sort<T, F>(v: &mut [T], mut is_less: F) where F: FnMut(&T, &T) -> bool, { - // Slices of up to this length get sorted using insertion sort. - const MAX_INSERTION: usize = 20; - // Very short runs are extended using insertion sort to span at least this many elements. - const MIN_RUN: usize = 10; - - // Sorting has no meaningful behavior on zero-sized types. if T::IS_ZST { + // Sorting has no meaningful behavior on zero-sized types. Do nothing. return; } - let len = v.len(); + let elem_alloc_fn = |len: usize| -> *mut T { + // SAFETY: Creating the layout is safe as long as merge_sort never calls this with len > + // v.len(). Alloc in general will only be used as 'shadow-region' to store temporary swap + // elements. + unsafe { alloc::alloc(alloc::Layout::array::<T>(len).unwrap_unchecked()) as *mut T } + }; - // Short arrays get sorted in-place via insertion sort to avoid allocations. - if len <= MAX_INSERTION { - if len >= 2 { - for i in (0..len - 1).rev() { - insert_head(&mut v[i..], &mut is_less); - } - } - return; - } - - // Allocate a buffer to use as scratch memory. We keep the length 0 so we can keep in it - // shallow copies of the contents of `v` without risking the dtors running on copies if - // `is_less` panics. When merging two sorted runs, this buffer holds a copy of the shorter run, - // which will always have length at most `len / 2`. - let mut buf = Vec::with_capacity(len / 2); - - // In order to identify natural runs in `v`, we traverse it backwards. That might seem like a - // strange decision, but consider the fact that merges more often go in the opposite direction - // (forwards). According to benchmarks, merging forwards is slightly faster than merging - // backwards. To conclude, identifying runs by traversing backwards improves performance. - let mut runs = vec![]; - let mut end = len; - while end > 0 { - // Find the next natural run, and reverse it if it's strictly descending. - let mut start = end - 1; - if start > 0 { - start -= 1; - unsafe { - if is_less(v.get_unchecked(start + 1), v.get_unchecked(start)) { - while start > 0 && is_less(v.get_unchecked(start), v.get_unchecked(start - 1)) { - start -= 1; - } - v[start..end].reverse(); - } else { - while start > 0 && !is_less(v.get_unchecked(start), v.get_unchecked(start - 1)) - { - start -= 1; - } - } - } - } - - // Insert some more elements into the run if it's too short. Insertion sort is faster than - // merge sort on short sequences, so this significantly improves performance. - while start > 0 && end - start < MIN_RUN { - start -= 1; - insert_head(&mut v[start..end], &mut is_less); + let elem_dealloc_fn = |buf_ptr: *mut T, len: usize| { + // SAFETY: Creating the layout is safe as long as merge_sort never calls this with len > + // v.len(). The caller must ensure that buf_ptr was created by elem_alloc_fn with the same + // len. + unsafe { + alloc::dealloc(buf_ptr as *mut u8, alloc::Layout::array::<T>(len).unwrap_unchecked()); } + }; - // Push this run onto the stack. - runs.push(Run { start, len: end - start }); - end = start; - - // Merge some pairs of adjacent runs to satisfy the invariants. - while let Some(r) = collapse(&runs) { - let left = runs[r + 1]; - let right = runs[r]; - unsafe { - merge( - &mut v[left.start..right.start + right.len], - left.len, - buf.as_mut_ptr(), - &mut is_less, - ); - } - runs[r] = Run { start: left.start, len: left.len + right.len }; - runs.remove(r + 1); + let run_alloc_fn = |len: usize| -> *mut sort::TimSortRun { + // SAFETY: Creating the layout is safe as long as merge_sort never calls this with an + // obscene length or 0. + unsafe { + alloc::alloc(alloc::Layout::array::<sort::TimSortRun>(len).unwrap_unchecked()) + as *mut sort::TimSortRun } - } - - // Finally, exactly one run must remain in the stack. - debug_assert!(runs.len() == 1 && runs[0].start == 0 && runs[0].len == len); + }; - // Examines the stack of runs and identifies the next pair of runs to merge. More specifically, - // if `Some(r)` is returned, that means `runs[r]` and `runs[r + 1]` must be merged next. If the - // algorithm should continue building a new run instead, `None` is returned. - // - // TimSort is infamous for its buggy implementations, as described here: - // http://envisage-project.eu/timsort-specification-and-verification/ - // - // The gist of the story is: we must enforce the invariants on the top four runs on the stack. - // Enforcing them on just top three is not sufficient to ensure that the invariants will still - // hold for *all* runs in the stack. - // - // This function correctly checks invariants for the top four runs. Additionally, if the top - // run starts at index 0, it will always demand a merge operation until the stack is fully - // collapsed, in order to complete the sort. - #[inline] - fn collapse(runs: &[Run]) -> Option<usize> { - let n = runs.len(); - if n >= 2 - && (runs[n - 1].start == 0 - || runs[n - 2].len <= runs[n - 1].len - || (n >= 3 && runs[n - 3].len <= runs[n - 2].len + runs[n - 1].len) - || (n >= 4 && runs[n - 4].len <= runs[n - 3].len + runs[n - 2].len)) - { - if n >= 3 && runs[n - 3].len < runs[n - 1].len { Some(n - 3) } else { Some(n - 2) } - } else { - None + let run_dealloc_fn = |buf_ptr: *mut sort::TimSortRun, len: usize| { + // SAFETY: The caller must ensure that buf_ptr was created by elem_alloc_fn with the same + // len. + unsafe { + alloc::dealloc( + buf_ptr as *mut u8, + alloc::Layout::array::<sort::TimSortRun>(len).unwrap_unchecked(), + ); } - } + }; - #[derive(Clone, Copy)] - struct Run { - start: usize, - len: usize, - } + sort::merge_sort(v, &mut is_less, elem_alloc_fn, elem_dealloc_fn, run_alloc_fn, run_dealloc_fn); } diff --git a/library/alloc/src/slice/tests.rs b/library/alloc/src/slice/tests.rs new file mode 100644 index 000000000..f674530aa --- /dev/null +++ b/library/alloc/src/slice/tests.rs @@ -0,0 +1,359 @@ +use crate::borrow::ToOwned; +use crate::rc::Rc; +use crate::string::ToString; +use crate::test_helpers::test_rng; +use crate::vec::Vec; + +use core::cell::Cell; +use core::cmp::Ordering::{self, Equal, Greater, Less}; +use core::convert::identity; +use core::fmt; +use core::mem; +use core::sync::atomic::{AtomicUsize, Ordering::Relaxed}; +use rand::{distributions::Standard, prelude::*, Rng, RngCore}; +use std::panic; + +macro_rules! do_test { + ($input:ident, $func:ident) => { + let len = $input.len(); + + // Work out the total number of comparisons required to sort + // this array... + let mut count = 0usize; + $input.to_owned().$func(|a, b| { + count += 1; + a.cmp(b) + }); + + // ... and then panic on each and every single one. + for panic_countdown in 0..count { + // Refresh the counters. + VERSIONS.store(0, Relaxed); + for i in 0..len { + DROP_COUNTS[i].store(0, Relaxed); + } + + let v = $input.to_owned(); + let _ = std::panic::catch_unwind(move || { + let mut v = v; + let mut panic_countdown = panic_countdown; + v.$func(|a, b| { + if panic_countdown == 0 { + SILENCE_PANIC.with(|s| s.set(true)); + panic!(); + } + panic_countdown -= 1; + a.cmp(b) + }) + }); + + // Check that the number of things dropped is exactly + // what we expect (i.e., the contents of `v`). + for (i, c) in DROP_COUNTS.iter().enumerate().take(len) { + let count = c.load(Relaxed); + assert!(count == 1, "found drop count == {} for i == {}, len == {}", count, i, len); + } + + // Check that the most recent versions of values were dropped. + assert_eq!(VERSIONS.load(Relaxed), 0); + } + }; +} + +const MAX_LEN: usize = 80; + +static DROP_COUNTS: [AtomicUsize; MAX_LEN] = [ + // FIXME(RFC 1109): AtomicUsize is not Copy. + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), + AtomicUsize::new(0), +]; + +static VERSIONS: AtomicUsize = AtomicUsize::new(0); + +#[derive(Clone, Eq)] +struct DropCounter { + x: u32, + id: usize, + version: Cell<usize>, +} + +impl PartialEq for DropCounter { + fn eq(&self, other: &Self) -> bool { + self.partial_cmp(other) == Some(Ordering::Equal) + } +} + +impl PartialOrd for DropCounter { + fn partial_cmp(&self, other: &Self) -> Option<Ordering> { + self.version.set(self.version.get() + 1); + other.version.set(other.version.get() + 1); + VERSIONS.fetch_add(2, Relaxed); + self.x.partial_cmp(&other.x) + } +} + +impl Ord for DropCounter { + fn cmp(&self, other: &Self) -> Ordering { + self.partial_cmp(other).unwrap() + } +} + +impl Drop for DropCounter { + fn drop(&mut self) { + DROP_COUNTS[self.id].fetch_add(1, Relaxed); + VERSIONS.fetch_sub(self.version.get(), Relaxed); + } +} + +std::thread_local!(static SILENCE_PANIC: Cell<bool> = Cell::new(false)); + +#[test] +#[cfg_attr(target_os = "emscripten", ignore)] // no threads +fn panic_safe() { + panic::update_hook(move |prev, info| { + if !SILENCE_PANIC.with(|s| s.get()) { + prev(info); + } + }); + + let mut rng = test_rng(); + + // Miri is too slow (but still need to `chain` to make the types match) + let lens = if cfg!(miri) { (1..10).chain(0..0) } else { (1..20).chain(70..MAX_LEN) }; + let moduli: &[u32] = if cfg!(miri) { &[5] } else { &[5, 20, 50] }; + + for len in lens { + for &modulus in moduli { + for &has_runs in &[false, true] { + let mut input = (0..len) + .map(|id| DropCounter { + x: rng.next_u32() % modulus, + id: id, + version: Cell::new(0), + }) + .collect::<Vec<_>>(); + + if has_runs { + for c in &mut input { + c.x = c.id as u32; + } + + for _ in 0..5 { + let a = rng.gen::<usize>() % len; + let b = rng.gen::<usize>() % len; + if a < b { + input[a..b].reverse(); + } else { + input.swap(a, b); + } + } + } + + do_test!(input, sort_by); + do_test!(input, sort_unstable_by); + } + } + } + + // Set default panic hook again. + drop(panic::take_hook()); +} + +#[test] +#[cfg_attr(miri, ignore)] // Miri is too slow +fn test_sort() { + let mut rng = test_rng(); + + for len in (2..25).chain(500..510) { + for &modulus in &[5, 10, 100, 1000] { + for _ in 0..10 { + let orig: Vec<_> = (&mut rng) + .sample_iter::<i32, _>(&Standard) + .map(|x| x % modulus) + .take(len) + .collect(); + + // Sort in default order. + let mut v = orig.clone(); + v.sort(); + assert!(v.windows(2).all(|w| w[0] <= w[1])); + + // Sort in ascending order. + let mut v = orig.clone(); + v.sort_by(|a, b| a.cmp(b)); + assert!(v.windows(2).all(|w| w[0] <= w[1])); + + // Sort in descending order. + let mut v = orig.clone(); + v.sort_by(|a, b| b.cmp(a)); + assert!(v.windows(2).all(|w| w[0] >= w[1])); + + // Sort in lexicographic order. + let mut v1 = orig.clone(); + let mut v2 = orig.clone(); + v1.sort_by_key(|x| x.to_string()); + v2.sort_by_cached_key(|x| x.to_string()); + assert!(v1.windows(2).all(|w| w[0].to_string() <= w[1].to_string())); + assert!(v1 == v2); + + // Sort with many pre-sorted runs. + let mut v = orig.clone(); + v.sort(); + v.reverse(); + for _ in 0..5 { + let a = rng.gen::<usize>() % len; + let b = rng.gen::<usize>() % len; + if a < b { + v[a..b].reverse(); + } else { + v.swap(a, b); + } + } + v.sort(); + assert!(v.windows(2).all(|w| w[0] <= w[1])); + } + } + } + + // Sort using a completely random comparison function. + // This will reorder the elements *somehow*, but won't panic. + let mut v = [0; 500]; + for i in 0..v.len() { + v[i] = i as i32; + } + v.sort_by(|_, _| *[Less, Equal, Greater].choose(&mut rng).unwrap()); + v.sort(); + for i in 0..v.len() { + assert_eq!(v[i], i as i32); + } + + // Should not panic. + [0i32; 0].sort(); + [(); 10].sort(); + [(); 100].sort(); + + let mut v = [0xDEADBEEFu64]; + v.sort(); + assert!(v == [0xDEADBEEF]); +} + +#[test] +fn test_sort_stability() { + // Miri is too slow + let large_range = if cfg!(miri) { 0..0 } else { 500..510 }; + let rounds = if cfg!(miri) { 1 } else { 10 }; + + let mut rng = test_rng(); + for len in (2..25).chain(large_range) { + for _ in 0..rounds { + let mut counts = [0; 10]; + + // create a vector like [(6, 1), (5, 1), (6, 2), ...], + // where the first item of each tuple is random, but + // the second item represents which occurrence of that + // number this element is, i.e., the second elements + // will occur in sorted order. + let orig: Vec<_> = (0..len) + .map(|_| { + let n = rng.gen::<usize>() % 10; + counts[n] += 1; + (n, counts[n]) + }) + .collect(); + + let mut v = orig.clone(); + // Only sort on the first element, so an unstable sort + // may mix up the counts. + v.sort_by(|&(a, _), &(b, _)| a.cmp(&b)); + + // This comparison includes the count (the second item + // of the tuple), so elements with equal first items + // will need to be ordered with increasing + // counts... i.e., exactly asserting that this sort is + // stable. + assert!(v.windows(2).all(|w| w[0] <= w[1])); + + let mut v = orig.clone(); + v.sort_by_cached_key(|&(x, _)| x); + assert!(v.windows(2).all(|w| w[0] <= w[1])); + } + } +} diff --git a/library/alloc/src/str.rs b/library/alloc/src/str.rs index b28d20cda..afbe5cfaf 100644 --- a/library/alloc/src/str.rs +++ b/library/alloc/src/str.rs @@ -559,10 +559,9 @@ impl str { #[stable(feature = "ascii_methods_on_intrinsics", since = "1.23.0")] #[inline] pub fn to_ascii_uppercase(&self) -> String { - let mut bytes = self.as_bytes().to_vec(); - bytes.make_ascii_uppercase(); - // make_ascii_uppercase() preserves the UTF-8 invariant. - unsafe { String::from_utf8_unchecked(bytes) } + let mut s = self.to_owned(); + s.make_ascii_uppercase(); + s } /// Returns a copy of this string where each character is mapped to its @@ -592,10 +591,9 @@ impl str { #[stable(feature = "ascii_methods_on_intrinsics", since = "1.23.0")] #[inline] pub fn to_ascii_lowercase(&self) -> String { - let mut bytes = self.as_bytes().to_vec(); - bytes.make_ascii_lowercase(); - // make_ascii_lowercase() preserves the UTF-8 invariant. - unsafe { String::from_utf8_unchecked(bytes) } + let mut s = self.to_owned(); + s.make_ascii_lowercase(); + s } } diff --git a/library/alloc/src/string.rs b/library/alloc/src/string.rs index 7a8e6f088..ca182c810 100644 --- a/library/alloc/src/string.rs +++ b/library/alloc/src/string.rs @@ -363,7 +363,7 @@ use crate::vec::Vec; /// [`as_str()`]: String::as_str #[derive(PartialOrd, Eq, Ord)] #[stable(feature = "rust1", since = "1.0.0")] -#[cfg_attr(all(not(bootstrap), not(test)), lang = "String")] +#[cfg_attr(not(test), lang = "String")] pub struct String { vec: Vec<u8>, } @@ -2549,6 +2549,15 @@ impl ToString for char { } #[cfg(not(no_global_oom_handling))] +#[stable(feature = "bool_to_string_specialization", since = "1.68.0")] +impl ToString for bool { + #[inline] + fn to_string(&self) -> String { + String::from(if *self { "true" } else { "false" }) + } +} + +#[cfg(not(no_global_oom_handling))] #[stable(feature = "u8_to_string_specialization", since = "1.54.0")] impl ToString for u8 { #[inline] @@ -2678,7 +2687,7 @@ impl From<&String> for String { } } -// note: test pulls in libstd, which causes errors here +// note: test pulls in std, which causes errors here #[cfg(not(test))] #[stable(feature = "string_from_box", since = "1.18.0")] impl From<Box<str>> for String { diff --git a/library/alloc/src/sync.rs b/library/alloc/src/sync.rs index f7dc4d109..bab7f5f53 100644 --- a/library/alloc/src/sync.rs +++ b/library/alloc/src/sync.rs @@ -254,7 +254,7 @@ unsafe impl<T: ?Sized + Sync + Send> Sync for Arc<T> {} #[stable(feature = "catch_unwind", since = "1.9.0")] impl<T: RefUnwindSafe + ?Sized> UnwindSafe for Arc<T> {} -#[unstable(feature = "coerce_unsized", issue = "27732")] +#[unstable(feature = "coerce_unsized", issue = "18598")] impl<T: ?Sized + Unsize<U>, U: ?Sized> CoerceUnsized<Arc<U>> for Arc<T> {} #[unstable(feature = "dispatch_from_dyn", issue = "none")] @@ -295,7 +295,7 @@ pub struct Weak<T: ?Sized> { // This is a `NonNull` to allow optimizing the size of this type in enums, // but it is not necessarily a valid pointer. // `Weak::new` sets this to `usize::MAX` so that it doesn’t need - // to allocate space on the heap. That's not a value a real pointer + // to allocate space on the heap. That's not a value a real pointer // will ever have because RcBox has alignment at least 2. // This is only possible when `T: Sized`; unsized `T` never dangle. ptr: NonNull<ArcInner<T>>, @@ -306,13 +306,13 @@ unsafe impl<T: ?Sized + Sync + Send> Send for Weak<T> {} #[stable(feature = "arc_weak", since = "1.4.0")] unsafe impl<T: ?Sized + Sync + Send> Sync for Weak<T> {} -#[unstable(feature = "coerce_unsized", issue = "27732")] +#[unstable(feature = "coerce_unsized", issue = "18598")] impl<T: ?Sized + Unsize<U>, U: ?Sized> CoerceUnsized<Weak<U>> for Weak<T> {} #[unstable(feature = "dispatch_from_dyn", issue = "none")] impl<T: ?Sized + Unsize<U>, U: ?Sized> DispatchFromDyn<Weak<U>> for Weak<T> {} #[stable(feature = "arc_weak", since = "1.4.0")] -impl<T: ?Sized + fmt::Debug> fmt::Debug for Weak<T> { +impl<T: ?Sized> fmt::Debug for Weak<T> { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { write!(f, "(Weak)") } @@ -1656,7 +1656,7 @@ impl<T: ?Sized> Arc<T> { // // The acquire label here ensures a happens-before relationship with any // writes to `strong` (in particular in `Weak::upgrade`) prior to decrements - // of the `weak` count (via `Weak::drop`, which uses release). If the upgraded + // of the `weak` count (via `Weak::drop`, which uses release). If the upgraded // weak ref was never dropped, the CAS here will fail so we do not care to synchronize. if self.inner().weak.compare_exchange(1, usize::MAX, Acquire, Relaxed).is_ok() { // This needs to be an `Acquire` to synchronize with the decrement of the `strong` @@ -1712,7 +1712,7 @@ unsafe impl<#[may_dangle] T: ?Sized> Drop for Arc<T> { } // This fence is needed to prevent reordering of use of the data and - // deletion of the data. Because it is marked `Release`, the decreasing + // deletion of the data. Because it is marked `Release`, the decreasing // of the reference count synchronizes with this `Acquire` fence. This // means that use of the data happens before decreasing the reference // count, which happens before this fence, which happens before the @@ -2172,7 +2172,7 @@ impl<T: ?Sized> Clone for Weak<T> { } else { return Weak { ptr: self.ptr }; }; - // See comments in Arc::clone() for why this is relaxed. This can use a + // See comments in Arc::clone() for why this is relaxed. This can use a // fetch_add (ignoring the lock) because the weak count is only locked // where are *no other* weak pointers in existence. (So we can't be // running this code in that case). diff --git a/library/alloc/src/collections/btree/testing/crash_test.rs b/library/alloc/src/testing/crash_test.rs index bcf5f5f72..bcf5f5f72 100644 --- a/library/alloc/src/collections/btree/testing/crash_test.rs +++ b/library/alloc/src/testing/crash_test.rs diff --git a/library/alloc/src/collections/btree/testing/mod.rs b/library/alloc/src/testing/mod.rs index 7a094f8a5..7a094f8a5 100644 --- a/library/alloc/src/collections/btree/testing/mod.rs +++ b/library/alloc/src/testing/mod.rs diff --git a/library/alloc/src/collections/btree/testing/ord_chaos.rs b/library/alloc/src/testing/ord_chaos.rs index 96ce7c157..96ce7c157 100644 --- a/library/alloc/src/collections/btree/testing/ord_chaos.rs +++ b/library/alloc/src/testing/ord_chaos.rs diff --git a/library/alloc/src/collections/btree/testing/rng.rs b/library/alloc/src/testing/rng.rs index ecf543bee..ecf543bee 100644 --- a/library/alloc/src/collections/btree/testing/rng.rs +++ b/library/alloc/src/testing/rng.rs diff --git a/library/alloc/src/vec/drain.rs b/library/alloc/src/vec/drain.rs index 541f99bcf..2b1a787cc 100644 --- a/library/alloc/src/vec/drain.rs +++ b/library/alloc/src/vec/drain.rs @@ -223,9 +223,9 @@ impl<T, A: Allocator> Drop for Drain<'_, T, A> { } // as_slice() must only be called when iter.len() is > 0 because - // vec::Splice modifies vec::Drain fields and may grow the vec which would invalidate - // the iterator's internal pointers. Creating a reference to deallocated memory - // is invalid even when it is zero-length + // it also gets touched by vec::Splice which may turn it into a dangling pointer + // which would make it and the vec pointer point to different allocations which would + // lead to invalid pointer arithmetic below. let drop_ptr = iter.as_slice().as_ptr(); unsafe { diff --git a/library/alloc/src/vec/into_iter.rs b/library/alloc/src/vec/into_iter.rs index 02cc7691a..37966007e 100644 --- a/library/alloc/src/vec/into_iter.rs +++ b/library/alloc/src/vec/into_iter.rs @@ -1,6 +1,8 @@ #[cfg(not(no_global_oom_handling))] use super::AsVecIntoIter; use crate::alloc::{Allocator, Global}; +#[cfg(not(no_global_oom_handling))] +use crate::collections::VecDeque; use crate::raw_vec::RawVec; use core::array; use core::fmt; @@ -38,7 +40,9 @@ pub struct IntoIter< // to avoid dropping the allocator twice we need to wrap it into ManuallyDrop pub(super) alloc: ManuallyDrop<A>, pub(super) ptr: *const T, - pub(super) end: *const T, + pub(super) end: *const T, // If T is a ZST, this is actually ptr+len. This encoding is picked so that + // ptr == end is a quick test for the Iterator being empty, that works + // for both ZST and non-ZST. } #[stable(feature = "vec_intoiter_debug", since = "1.13.0")] @@ -130,7 +134,36 @@ impl<T, A: Allocator> IntoIter<T, A> { /// Forgets to Drop the remaining elements while still allowing the backing allocation to be freed. pub(crate) fn forget_remaining_elements(&mut self) { - self.ptr = self.end; + // For th ZST case, it is crucial that we mutate `end` here, not `ptr`. + // `ptr` must stay aligned, while `end` may be unaligned. + self.end = self.ptr; + } + + #[cfg(not(no_global_oom_handling))] + #[inline] + pub(crate) fn into_vecdeque(self) -> VecDeque<T, A> { + // Keep our `Drop` impl from dropping the elements and the allocator + let mut this = ManuallyDrop::new(self); + + // SAFETY: This allocation originally came from a `Vec`, so it passes + // all those checks. We have `this.buf` ≤ `this.ptr` ≤ `this.end`, + // so the `sub_ptr`s below cannot wrap, and will produce a well-formed + // range. `end` ≤ `buf + cap`, so the range will be in-bounds. + // Taking `alloc` is ok because nothing else is going to look at it, + // since our `Drop` impl isn't going to run so there's no more code. + unsafe { + let buf = this.buf.as_ptr(); + let initialized = if T::IS_ZST { + // All the pointers are the same for ZSTs, so it's fine to + // say that they're all at the beginning of the "allocation". + 0..this.len() + } else { + this.ptr.sub_ptr(buf)..this.end.sub_ptr(buf) + }; + let cap = this.cap; + let alloc = ManuallyDrop::take(&mut this.alloc); + VecDeque::from_contiguous_raw_parts_in(buf, initialized, cap, alloc) + } } } @@ -155,10 +188,9 @@ impl<T, A: Allocator> Iterator for IntoIter<T, A> { if self.ptr == self.end { None } else if T::IS_ZST { - // purposefully don't use 'ptr.offset' because for - // vectors with 0-size elements this would return the - // same pointer. - self.ptr = self.ptr.wrapping_byte_add(1); + // `ptr` has to stay where it is to remain aligned, so we reduce the length by 1 by + // reducing the `end`. + self.end = self.end.wrapping_byte_sub(1); // Make up a value of this ZST. Some(unsafe { mem::zeroed() }) @@ -185,10 +217,8 @@ impl<T, A: Allocator> Iterator for IntoIter<T, A> { let step_size = self.len().min(n); let to_drop = ptr::slice_from_raw_parts_mut(self.ptr as *mut T, step_size); if T::IS_ZST { - // SAFETY: due to unchecked casts of unsigned amounts to signed offsets the wraparound - // effectively results in unsigned pointers representing positions 0..usize::MAX, - // which is valid for ZSTs. - self.ptr = self.ptr.wrapping_byte_add(step_size); + // See `next` for why we sub `end` here. + self.end = self.end.wrapping_byte_sub(step_size); } else { // SAFETY: the min() above ensures that step_size is in bounds self.ptr = unsafe { self.ptr.add(step_size) }; @@ -221,7 +251,7 @@ impl<T, A: Allocator> Iterator for IntoIter<T, A> { return Err(unsafe { array::IntoIter::new_unchecked(raw_ary, 0..len) }); } - self.ptr = self.ptr.wrapping_byte_add(N); + self.end = self.end.wrapping_byte_sub(N); // Safety: ditto return Ok(unsafe { raw_ary.transpose().assume_init() }); } diff --git a/library/alloc/src/vec/is_zero.rs b/library/alloc/src/vec/is_zero.rs index 8e652d676..cb9adf05c 100644 --- a/library/alloc/src/vec/is_zero.rs +++ b/library/alloc/src/vec/is_zero.rs @@ -4,7 +4,8 @@ use crate::boxed::Box; #[rustc_specialization_trait] pub(super) unsafe trait IsZero { - /// Whether this value's representation is all zeros + /// Whether this value's representation is all zeros, + /// or can be represented with all zeroes. fn is_zero(&self) -> bool; } @@ -57,7 +58,7 @@ unsafe impl<T: IsZero, const N: usize> IsZero for [T; N] { #[inline] fn is_zero(&self) -> bool { // Because this is generated as a runtime check, it's not obvious that - // it's worth doing if the array is really long. The threshold here + // it's worth doing if the array is really long. The threshold here // is largely arbitrary, but was picked because as of 2022-07-01 LLVM // fails to const-fold the check in `vec![[1; 32]; n]` // See https://github.com/rust-lang/rust/pull/97581#issuecomment-1166628022 @@ -147,6 +148,23 @@ impl_is_zero_option_of_nonzero!( NonZeroIsize, ); +macro_rules! impl_is_zero_option_of_num { + ($($t:ty,)+) => {$( + unsafe impl IsZero for Option<$t> { + #[inline] + fn is_zero(&self) -> bool { + const { + let none: Self = unsafe { core::mem::MaybeUninit::zeroed().assume_init() }; + assert!(none.is_none()); + } + self.is_none() + } + } + )+}; +} + +impl_is_zero_option_of_num!(u8, u16, u32, u64, u128, i8, i16, i32, i64, i128, usize, isize,); + unsafe impl<T: IsZero> IsZero for Wrapping<T> { #[inline] fn is_zero(&self) -> bool { diff --git a/library/alloc/src/vec/mod.rs b/library/alloc/src/vec/mod.rs index ba34ab680..36b0b3c9e 100644 --- a/library/alloc/src/vec/mod.rs +++ b/library/alloc/src/vec/mod.rs @@ -166,7 +166,7 @@ mod spec_extend; /// vec[0] = 7; /// assert_eq!(vec[0], 7); /// -/// vec.extend([1, 2, 3].iter().copied()); +/// vec.extend([1, 2, 3]); /// /// for x in &vec { /// println!("{x}"); @@ -490,6 +490,8 @@ impl<T> Vec<T> { /// This is highly unsafe, due to the number of invariants that aren't /// checked: /// + /// * `ptr` must have been allocated using the global allocator, such as via + /// the [`alloc::alloc`] function. /// * `T` needs to have the same alignment as what `ptr` was allocated with. /// (`T` having a less strict alignment is not sufficient, the alignment really /// needs to be equal to satisfy the [`dealloc`] requirement that memory must be @@ -526,6 +528,7 @@ impl<T> Vec<T> { /// function. /// /// [`String`]: crate::string::String + /// [`alloc::alloc`]: crate::alloc::alloc /// [`dealloc`]: crate::alloc::GlobalAlloc::dealloc /// /// # Examples @@ -681,6 +684,7 @@ impl<T, A: Allocator> Vec<T, A> { /// This is highly unsafe, due to the number of invariants that aren't /// checked: /// + /// * `ptr` must be [*currently allocated*] via the given allocator `alloc`. /// * `T` needs to have the same alignment as what `ptr` was allocated with. /// (`T` having a less strict alignment is not sufficient, the alignment really /// needs to be equal to satisfy the [`dealloc`] requirement that memory must be @@ -714,6 +718,7 @@ impl<T, A: Allocator> Vec<T, A> { /// /// [`String`]: crate::string::String /// [`dealloc`]: crate::alloc::GlobalAlloc::dealloc + /// [*currently allocated*]: crate::alloc::Allocator#currently-allocated-memory /// [*fit*]: crate::alloc::Allocator#memory-fitting /// /// # Examples @@ -2424,7 +2429,7 @@ impl<T: Clone, A: Allocator> Vec<T, A> { self.reserve(range.len()); // SAFETY: - // - `slice::range` guarantees that the given range is valid for indexing self + // - `slice::range` guarantees that the given range is valid for indexing self unsafe { self.spec_extend_from_within(range); } @@ -2681,7 +2686,7 @@ impl<T: Clone, A: Allocator + Clone> Clone for Vec<T, A> { // HACK(japaric): with cfg(test) the inherent `[T]::to_vec` method, which is // required for this method definition, is not available. Instead use the - // `slice::to_vec` function which is only available with cfg(test) + // `slice::to_vec` function which is only available with cfg(test) // NB see the slice::hack module in slice.rs for more information #[cfg(test)] fn clone(&self) -> Self { @@ -3191,7 +3196,7 @@ where } } -// note: test pulls in libstd, which causes errors here +// note: test pulls in std, which causes errors here #[cfg(not(test))] #[stable(feature = "vec_from_box", since = "1.18.0")] impl<T, A: Allocator> From<Box<[T], A>> for Vec<T, A> { @@ -3209,7 +3214,7 @@ impl<T, A: Allocator> From<Box<[T], A>> for Vec<T, A> { } } -// note: test pulls in libstd, which causes errors here +// note: test pulls in std, which causes errors here #[cfg(not(no_global_oom_handling))] #[cfg(not(test))] #[stable(feature = "box_from_vec", since = "1.20.0")] diff --git a/library/alloc/src/vec/splice.rs b/library/alloc/src/vec/splice.rs index bad765c7f..1861147fe 100644 --- a/library/alloc/src/vec/splice.rs +++ b/library/alloc/src/vec/splice.rs @@ -54,6 +54,12 @@ impl<I: Iterator, A: Allocator> ExactSizeIterator for Splice<'_, I, A> {} impl<I: Iterator, A: Allocator> Drop for Splice<'_, I, A> { fn drop(&mut self) { self.drain.by_ref().for_each(drop); + // At this point draining is done and the only remaining tasks are splicing + // and moving things into the final place. + // Which means we can replace the slice::Iter with pointers that won't point to deallocated + // memory, so that Drain::drop is still allowed to call iter.len(), otherwise it would break + // the ptr.sub_ptr contract. + self.drain.iter = (&[]).iter(); unsafe { if self.drain.tail_len == 0 { diff --git a/library/alloc/tests/autotraits.rs b/library/alloc/tests/autotraits.rs index 8ff5f0abe..879e32b3f 100644 --- a/library/alloc/tests/autotraits.rs +++ b/library/alloc/tests/autotraits.rs @@ -32,7 +32,7 @@ fn test_btree_map() { // spawn(f()); // } // - // where with some unintentionally overconstrained Send impls in liballoc's + // where with some unintentionally overconstrained Send impls in alloc's // internals, the future might incorrectly not be Send even though every // single type involved in the program is Send and Sync. require_send_sync(async { diff --git a/library/alloc/tests/lib.rs b/library/alloc/tests/lib.rs index d6d2b055b..2a93a242d 100644 --- a/library/alloc/tests/lib.rs +++ b/library/alloc/tests/lib.rs @@ -1,7 +1,6 @@ #![feature(allocator_api)] #![feature(alloc_layout_extra)] #![feature(assert_matches)] -#![feature(box_syntax)] #![feature(btree_drain_filter)] #![feature(cow_is_borrowed)] #![feature(const_box)] diff --git a/library/alloc/tests/slice.rs b/library/alloc/tests/slice.rs index 21f894343..0693beb48 100644 --- a/library/alloc/tests/slice.rs +++ b/library/alloc/tests/slice.rs @@ -1,15 +1,9 @@ -use std::cell::Cell; -use std::cmp::Ordering::{self, Equal, Greater, Less}; +use std::cmp::Ordering::{Equal, Greater, Less}; use std::convert::identity; use std::fmt; use std::mem; use std::panic; use std::rc::Rc; -use std::sync::atomic::{AtomicUsize, Ordering::Relaxed}; - -use rand::distributions::Standard; -use rand::seq::SliceRandom; -use rand::{thread_rng, Rng, RngCore}; fn square(n: usize) -> usize { n * n @@ -389,123 +383,6 @@ fn test_reverse() { } #[test] -#[cfg_attr(miri, ignore)] // Miri is too slow -fn test_sort() { - let mut rng = thread_rng(); - - for len in (2..25).chain(500..510) { - for &modulus in &[5, 10, 100, 1000] { - for _ in 0..10 { - let orig: Vec<_> = - rng.sample_iter::<i32, _>(&Standard).map(|x| x % modulus).take(len).collect(); - - // Sort in default order. - let mut v = orig.clone(); - v.sort(); - assert!(v.windows(2).all(|w| w[0] <= w[1])); - - // Sort in ascending order. - let mut v = orig.clone(); - v.sort_by(|a, b| a.cmp(b)); - assert!(v.windows(2).all(|w| w[0] <= w[1])); - - // Sort in descending order. - let mut v = orig.clone(); - v.sort_by(|a, b| b.cmp(a)); - assert!(v.windows(2).all(|w| w[0] >= w[1])); - - // Sort in lexicographic order. - let mut v1 = orig.clone(); - let mut v2 = orig.clone(); - v1.sort_by_key(|x| x.to_string()); - v2.sort_by_cached_key(|x| x.to_string()); - assert!(v1.windows(2).all(|w| w[0].to_string() <= w[1].to_string())); - assert!(v1 == v2); - - // Sort with many pre-sorted runs. - let mut v = orig.clone(); - v.sort(); - v.reverse(); - for _ in 0..5 { - let a = rng.gen::<usize>() % len; - let b = rng.gen::<usize>() % len; - if a < b { - v[a..b].reverse(); - } else { - v.swap(a, b); - } - } - v.sort(); - assert!(v.windows(2).all(|w| w[0] <= w[1])); - } - } - } - - // Sort using a completely random comparison function. - // This will reorder the elements *somehow*, but won't panic. - let mut v = [0; 500]; - for i in 0..v.len() { - v[i] = i as i32; - } - v.sort_by(|_, _| *[Less, Equal, Greater].choose(&mut rng).unwrap()); - v.sort(); - for i in 0..v.len() { - assert_eq!(v[i], i as i32); - } - - // Should not panic. - [0i32; 0].sort(); - [(); 10].sort(); - [(); 100].sort(); - - let mut v = [0xDEADBEEFu64]; - v.sort(); - assert!(v == [0xDEADBEEF]); -} - -#[test] -fn test_sort_stability() { - // Miri is too slow - let large_range = if cfg!(miri) { 0..0 } else { 500..510 }; - let rounds = if cfg!(miri) { 1 } else { 10 }; - - for len in (2..25).chain(large_range) { - for _ in 0..rounds { - let mut counts = [0; 10]; - - // create a vector like [(6, 1), (5, 1), (6, 2), ...], - // where the first item of each tuple is random, but - // the second item represents which occurrence of that - // number this element is, i.e., the second elements - // will occur in sorted order. - let orig: Vec<_> = (0..len) - .map(|_| { - let n = thread_rng().gen::<usize>() % 10; - counts[n] += 1; - (n, counts[n]) - }) - .collect(); - - let mut v = orig.clone(); - // Only sort on the first element, so an unstable sort - // may mix up the counts. - v.sort_by(|&(a, _), &(b, _)| a.cmp(&b)); - - // This comparison includes the count (the second item - // of the tuple), so elements with equal first items - // will need to be ordered with increasing - // counts... i.e., exactly asserting that this sort is - // stable. - assert!(v.windows(2).all(|w| w[0] <= w[1])); - - let mut v = orig.clone(); - v.sort_by_cached_key(|&(x, _)| x); - assert!(v.windows(2).all(|w| w[0] <= w[1])); - } - } -} - -#[test] fn test_rotate_left() { let expected: Vec<_> = (0..13).collect(); let mut v = Vec::new(); @@ -1608,230 +1485,6 @@ fn test_copy_from_slice_dst_shorter() { dst.copy_from_slice(&src); } -const MAX_LEN: usize = 80; - -static DROP_COUNTS: [AtomicUsize; MAX_LEN] = [ - // FIXME(RFC 1109): AtomicUsize is not Copy. - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), - AtomicUsize::new(0), -]; - -static VERSIONS: AtomicUsize = AtomicUsize::new(0); - -#[derive(Clone, Eq)] -struct DropCounter { - x: u32, - id: usize, - version: Cell<usize>, -} - -impl PartialEq for DropCounter { - fn eq(&self, other: &Self) -> bool { - self.partial_cmp(other) == Some(Ordering::Equal) - } -} - -impl PartialOrd for DropCounter { - fn partial_cmp(&self, other: &Self) -> Option<Ordering> { - self.version.set(self.version.get() + 1); - other.version.set(other.version.get() + 1); - VERSIONS.fetch_add(2, Relaxed); - self.x.partial_cmp(&other.x) - } -} - -impl Ord for DropCounter { - fn cmp(&self, other: &Self) -> Ordering { - self.partial_cmp(other).unwrap() - } -} - -impl Drop for DropCounter { - fn drop(&mut self) { - DROP_COUNTS[self.id].fetch_add(1, Relaxed); - VERSIONS.fetch_sub(self.version.get(), Relaxed); - } -} - -macro_rules! test { - ($input:ident, $func:ident) => { - let len = $input.len(); - - // Work out the total number of comparisons required to sort - // this array... - let mut count = 0usize; - $input.to_owned().$func(|a, b| { - count += 1; - a.cmp(b) - }); - - // ... and then panic on each and every single one. - for panic_countdown in 0..count { - // Refresh the counters. - VERSIONS.store(0, Relaxed); - for i in 0..len { - DROP_COUNTS[i].store(0, Relaxed); - } - - let v = $input.to_owned(); - let _ = std::panic::catch_unwind(move || { - let mut v = v; - let mut panic_countdown = panic_countdown; - v.$func(|a, b| { - if panic_countdown == 0 { - SILENCE_PANIC.with(|s| s.set(true)); - panic!(); - } - panic_countdown -= 1; - a.cmp(b) - }) - }); - - // Check that the number of things dropped is exactly - // what we expect (i.e., the contents of `v`). - for (i, c) in DROP_COUNTS.iter().enumerate().take(len) { - let count = c.load(Relaxed); - assert!(count == 1, "found drop count == {} for i == {}, len == {}", count, i, len); - } - - // Check that the most recent versions of values were dropped. - assert_eq!(VERSIONS.load(Relaxed), 0); - } - }; -} - -thread_local!(static SILENCE_PANIC: Cell<bool> = Cell::new(false)); - -#[test] -#[cfg_attr(target_os = "emscripten", ignore)] // no threads -fn panic_safe() { - panic::update_hook(move |prev, info| { - if !SILENCE_PANIC.with(|s| s.get()) { - prev(info); - } - }); - - let mut rng = thread_rng(); - - // Miri is too slow (but still need to `chain` to make the types match) - let lens = if cfg!(miri) { (1..10).chain(0..0) } else { (1..20).chain(70..MAX_LEN) }; - let moduli: &[u32] = if cfg!(miri) { &[5] } else { &[5, 20, 50] }; - - for len in lens { - for &modulus in moduli { - for &has_runs in &[false, true] { - let mut input = (0..len) - .map(|id| DropCounter { - x: rng.next_u32() % modulus, - id: id, - version: Cell::new(0), - }) - .collect::<Vec<_>>(); - - if has_runs { - for c in &mut input { - c.x = c.id as u32; - } - - for _ in 0..5 { - let a = rng.gen::<usize>() % len; - let b = rng.gen::<usize>() % len; - if a < b { - input[a..b].reverse(); - } else { - input.swap(a, b); - } - } - } - - test!(input, sort_by); - test!(input, sort_unstable_by); - } - } - } - - // Set default panic hook again. - drop(panic::take_hook()); -} - #[test] fn repeat_generic_slice() { assert_eq!([1, 2].repeat(2), vec![1, 2, 1, 2]); diff --git a/library/alloc/tests/vec.rs b/library/alloc/tests/vec.rs index 7ebed0d5c..2f07c2911 100644 --- a/library/alloc/tests/vec.rs +++ b/library/alloc/tests/vec.rs @@ -7,7 +7,9 @@ use std::borrow::Cow; use std::cell::Cell; use std::collections::TryReserveErrorKind::*; use std::fmt::Debug; +use std::hint; use std::iter::InPlaceIterable; +use std::mem; use std::mem::{size_of, swap}; use std::ops::Bound::*; use std::panic::{catch_unwind, AssertUnwindSafe}; @@ -1107,8 +1109,31 @@ fn test_into_iter_drop_allocator() { #[test] fn test_into_iter_zst() { - for _ in vec![[0u64; 0]].into_iter() {} - for _ in vec![[0u64; 0]; 5].into_iter().rev() {} + #[derive(Debug, Clone)] + struct AlignedZstWithDrop([u64; 0]); + impl Drop for AlignedZstWithDrop { + fn drop(&mut self) { + let addr = self as *mut _ as usize; + assert!(hint::black_box(addr) % mem::align_of::<u64>() == 0); + } + } + + const C: AlignedZstWithDrop = AlignedZstWithDrop([0u64; 0]); + + for _ in vec![C].into_iter() {} + for _ in vec![C; 5].into_iter().rev() {} + + let mut it = vec![C, C].into_iter(); + it.advance_by(1).unwrap(); + drop(it); + + let mut it = vec![C, C].into_iter(); + it.next_chunk::<1>().unwrap(); + drop(it); + + let mut it = vec![C, C].into_iter(); + it.next_chunk::<4>().unwrap_err(); + drop(it); } #[test] @@ -1824,7 +1849,7 @@ fn test_stable_pointers() { } // Test that, if we reserved enough space, adding and removing elements does not - // invalidate references into the vector (such as `v0`). This test also + // invalidate references into the vector (such as `v0`). This test also // runs in Miri, which would detect such problems. // Note that this test does *not* constitute a stable guarantee that all these functions do not // reallocate! Only what is explicitly documented at diff --git a/library/alloc/tests/vec_deque.rs b/library/alloc/tests/vec_deque.rs index d04de5a07..5a0b852e8 100644 --- a/library/alloc/tests/vec_deque.rs +++ b/library/alloc/tests/vec_deque.rs @@ -1046,6 +1046,20 @@ fn test_append_double_drop() { } #[test] +#[should_panic] +fn test_append_zst_capacity_overflow() { + let mut v = Vec::with_capacity(usize::MAX); + // note: using resize instead of set_len here would + // be *extremely* slow in unoptimized builds. + // SAFETY: `v` has capacity `usize::MAX`, and no initialization + // is needed for empty tuples. + unsafe { v.set_len(usize::MAX) }; + let mut v = VecDeque::from(v); + let mut w = vec![()].into(); + v.append(&mut w); +} + +#[test] fn test_retain() { let mut buf = VecDeque::new(); buf.extend(1..5); @@ -1736,3 +1750,39 @@ fn test_resize_keeps_reserved_space_from_item() { d.resize(1, v); assert_eq!(d[0].capacity(), 1234); } + +#[test] +fn test_collect_from_into_iter_keeps_allocation() { + let mut v = Vec::with_capacity(13); + v.extend(0..7); + check(v.as_ptr(), v.last().unwrap(), v.into_iter()); + + let mut v = VecDeque::with_capacity(13); + v.extend(0..7); + check(&v[0], &v[v.len() - 1], v.into_iter()); + + fn check(buf: *const i32, last: *const i32, mut it: impl Iterator<Item = i32>) { + assert_eq!(it.next(), Some(0)); + assert_eq!(it.next(), Some(1)); + + let mut v: VecDeque<i32> = it.collect(); + assert_eq!(v.capacity(), 13); + assert_eq!(v.as_slices().0.as_ptr(), buf.wrapping_add(2)); + assert_eq!(&v[v.len() - 1] as *const _, last); + + assert_eq!(v.as_slices(), ([2, 3, 4, 5, 6].as_slice(), [].as_slice())); + v.push_front(7); + assert_eq!(v.as_slices(), ([7, 2, 3, 4, 5, 6].as_slice(), [].as_slice())); + v.push_front(8); + assert_eq!(v.as_slices(), ([8, 7, 2, 3, 4, 5, 6].as_slice(), [].as_slice())); + + // Now that we've adding thing in place of the two that we removed from + // the front of the iterator, we're back to matching the buffer pointer. + assert_eq!(v.as_slices().0.as_ptr(), buf); + assert_eq!(&v[v.len() - 1] as *const _, last); + + v.push_front(9); + assert_eq!(v.as_slices(), ([9].as_slice(), [8, 7, 2, 3, 4, 5, 6].as_slice())); + assert_eq!(v.capacity(), 13); + } +} |