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Add core::clone::CloneToUninit
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This trait allows cloning DSTs, but is unsafe to implement and use because it writes to possibly-uninitialized memory which must be of the correct size, and must initialize that memory. It is only implemented for `T: Clone` and `[T] where T: Clone`, but additional implementations could be provided for specific `dyn Trait` or custom-DST types.
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@ -36,6 +36,9 @@
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#![stable(feature = "rust1", since = "1.0.0")]
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#![stable(feature = "rust1", since = "1.0.0")]
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use crate::mem::{self, MaybeUninit};
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use crate::ptr;
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/// A common trait for the ability to explicitly duplicate an object.
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/// A common trait for the ability to explicitly duplicate an object.
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///
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///
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/// Differs from [`Copy`] in that [`Copy`] is implicit and an inexpensive bit-wise copy, while
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/// Differs from [`Copy`] in that [`Copy`] is implicit and an inexpensive bit-wise copy, while
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@ -204,6 +207,189 @@ pub struct AssertParamIsCopy<T: Copy + ?Sized> {
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_field: crate::marker::PhantomData<T>,
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_field: crate::marker::PhantomData<T>,
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}
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}
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/// A generalization of [`Clone`] to dynamically-sized types stored in arbitrary containers.
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///
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/// This trait is implemented for all types implementing [`Clone`], and also [slices](slice) of all
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/// such types. You may also implement this trait to enable cloning trait objects and custom DSTs
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/// (structures containing dynamically-sized fields).
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///
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/// # Safety
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///
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/// Implementations must ensure that when `.clone_to_uninit(dst)` returns normally rather than
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/// panicking, it always leaves `*dst` initialized as a valid value of type `Self`.
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///
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/// # See also
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///
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/// * [`Clone::clone_from`] is a safe function which may be used instead when `Self` is a [`Sized`]
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/// and the destination is already initialized; it may be able to reuse allocations owned by
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/// the destination.
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/// * [`ToOwned`], which allocates a new destination container.
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///
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/// [`ToOwned`]: ../../std/borrow/trait.ToOwned.html
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#[unstable(feature = "clone_to_uninit", issue = "126799")]
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pub unsafe trait CloneToUninit {
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/// Performs copy-assignment from `self` to `dst`.
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///
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/// This is analogous to to `std::ptr::write(dst, self.clone())`,
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/// except that `self` may be a dynamically-sized type ([`!Sized`](Sized)).
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///
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/// Before this function is called, `dst` may point to uninitialized memory.
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/// After this function is called, `dst` will point to initialized memory; it will be
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/// sound to create a `&Self` reference from the pointer.
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///
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/// # Safety
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///
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/// Behavior is undefined if any of the following conditions are violated:
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///
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/// * `dst` must be [valid] for writes.
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/// * `dst` must be properly aligned.
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/// * `dst` must have the same [pointer metadata] (slice length or `dyn` vtable) as `self`.
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///
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/// [valid]: ptr#safety
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/// [pointer metadata]: crate::ptr::metadata()
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///
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/// # Panics
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///
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/// This function may panic. (For example, it might panic if memory allocation for a clone
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/// of a value owned by `self` fails.)
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/// If the call panics, then `*dst` should be treated as uninitialized memory; it must not be
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/// read or dropped, because even if it was previously valid, it may have been partially
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/// overwritten.
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///
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/// The caller may also need to take care to deallocate the allocation pointed to by `dst`,
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/// if applicable, to avoid a memory leak, and may need to take other precautions to ensure
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/// soundness in the presence of unwinding.
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///
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/// Implementors should avoid leaking values by, upon unwinding, dropping all component values
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/// that might have already been created. (For example, if a `[Foo]` of length 3 is being
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/// cloned, and the second of the three calls to `Foo::clone()` unwinds, then the first `Foo`
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/// cloned should be dropped.)
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unsafe fn clone_to_uninit(&self, dst: *mut Self);
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}
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#[unstable(feature = "clone_to_uninit", issue = "126799")]
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unsafe impl<T: Clone> CloneToUninit for T {
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default unsafe fn clone_to_uninit(&self, dst: *mut Self) {
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// SAFETY: The safety conditions of clone_to_uninit() are a superset of those of
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// ptr::write().
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unsafe {
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// We hope the optimizer will figure out to create the cloned value in-place,
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// skipping ever storing it on the stack and the copy to the destination.
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ptr::write(dst, self.clone());
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}
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}
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}
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// Specialized implementation for types that are [`Copy`], not just [`Clone`],
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// and can therefore be copied bitwise.
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#[unstable(feature = "clone_to_uninit", issue = "126799")]
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unsafe impl<T: Copy> CloneToUninit for T {
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unsafe fn clone_to_uninit(&self, dst: *mut Self) {
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// SAFETY: The safety conditions of clone_to_uninit() are a superset of those of
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// ptr::copy_nonoverlapping().
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unsafe {
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ptr::copy_nonoverlapping(self, dst, 1);
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}
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}
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}
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#[unstable(feature = "clone_to_uninit", issue = "126799")]
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unsafe impl<T: Clone> CloneToUninit for [T] {
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#[cfg_attr(debug_assertions, track_caller)]
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default unsafe fn clone_to_uninit(&self, dst: *mut Self) {
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let len = self.len();
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// This is the most likely mistake to make, so check it as a debug assertion.
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debug_assert_eq!(
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len,
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dst.len(),
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"clone_to_uninit() source and destination must have equal lengths",
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);
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// SAFETY: The produced `&mut` is valid because:
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// * The caller is obligated to provide a pointer which is valid for writes.
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// * All bytes pointed to are in MaybeUninit, so we don't care about the memory's
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// initialization status.
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let uninit_ref = unsafe { &mut *(dst as *mut [MaybeUninit<T>]) };
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// Copy the elements
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let mut initializing = InitializingSlice::from_fully_uninit(uninit_ref);
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for element_ref in self.iter() {
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// If the clone() panics, `initializing` will take care of the cleanup.
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initializing.push(element_ref.clone());
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}
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// If we reach here, then the entire slice is initialized, and we've satisfied our
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// responsibilities to the caller. Disarm the cleanup guard by forgetting it.
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mem::forget(initializing);
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}
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}
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#[unstable(feature = "clone_to_uninit", issue = "126799")]
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unsafe impl<T: Copy> CloneToUninit for [T] {
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#[cfg_attr(debug_assertions, track_caller)]
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unsafe fn clone_to_uninit(&self, dst: *mut Self) {
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let len = self.len();
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// This is the most likely mistake to make, so check it as a debug assertion.
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debug_assert_eq!(
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len,
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dst.len(),
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"clone_to_uninit() source and destination must have equal lengths",
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);
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// SAFETY: The safety conditions of clone_to_uninit() are a superset of those of
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// ptr::copy_nonoverlapping().
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unsafe {
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ptr::copy_nonoverlapping(self.as_ptr(), dst.as_mut_ptr(), len);
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}
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}
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}
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/// Ownership of a collection of values stored in a non-owned `[MaybeUninit<T>]`, some of which
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/// are not yet initialized. This is sort of like a `Vec` that doesn't own its allocation.
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/// Its responsibility is to provide cleanup on unwind by dropping the values that *are*
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/// initialized, unless disarmed by forgetting.
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///
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/// This is a helper for `impl<T: Clone> CloneToUninit for [T]`.
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struct InitializingSlice<'a, T> {
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data: &'a mut [MaybeUninit<T>],
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/// Number of elements of `*self.data` that are initialized.
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initialized_len: usize,
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}
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impl<'a, T> InitializingSlice<'a, T> {
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#[inline]
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fn from_fully_uninit(data: &'a mut [MaybeUninit<T>]) -> Self {
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Self { data, initialized_len: 0 }
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}
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/// Push a value onto the end of the initialized part of the slice.
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///
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/// # Panics
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///
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/// Panics if the slice is already fully initialized.
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#[inline]
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fn push(&mut self, value: T) {
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MaybeUninit::write(&mut self.data[self.initialized_len], value);
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self.initialized_len += 1;
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}
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}
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impl<'a, T> Drop for InitializingSlice<'a, T> {
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#[cold] // will only be invoked on unwind
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fn drop(&mut self) {
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let initialized_slice = ptr::slice_from_raw_parts_mut(
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MaybeUninit::slice_as_mut_ptr(self.data),
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self.initialized_len,
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);
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// SAFETY:
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// * the pointer is valid because it was made from a mutable reference
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// * `initialized_len` counts the initialized elements as an invariant of this type,
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// so each of the pointed-to elements is initialized and may be dropped.
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unsafe {
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ptr::drop_in_place::<[T]>(initialized_slice);
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}
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}
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}
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/// Implementations of `Clone` for primitive types.
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/// Implementations of `Clone` for primitive types.
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///
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///
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/// Implementations that cannot be described in Rust
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/// Implementations that cannot be described in Rust
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@ -1,3 +1,6 @@
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use core::clone::CloneToUninit;
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use core::mem::MaybeUninit;
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#[test]
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#[test]
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#[allow(suspicious_double_ref_op)]
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#[allow(suspicious_double_ref_op)]
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fn test_borrowed_clone() {
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fn test_borrowed_clone() {
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b.clone_from(&a);
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b.clone_from(&a);
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assert_eq!(*b, 5);
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assert_eq!(*b, 5);
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}
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}
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#[test]
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fn test_clone_to_uninit_slice_success() {
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// Using `String`s to exercise allocation and Drop of the individual elements;
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// if something is aliased or double-freed, at least Miri will catch that.
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let a: [String; 3] = ["a", "b", "c"].map(String::from);
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let mut storage: MaybeUninit<[String; 3]> = MaybeUninit::uninit();
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let b: [String; 3] = unsafe {
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a[..].clone_to_uninit(storage.as_mut_ptr() as *mut [String]);
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storage.assume_init()
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};
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assert_eq!(a, b);
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}
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#[test]
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#[cfg(panic = "unwind")]
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fn test_clone_to_uninit_slice_drops_on_panic() {
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use core::sync::atomic::{AtomicUsize, Ordering::Relaxed};
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/// A static counter is OK to use as long as _this one test_ isn't run several times in
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/// multiple threads.
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static COUNTER: AtomicUsize = AtomicUsize::new(0);
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/// Counts how many instances are live, and panics if a fifth one is created
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struct CountsDropsAndPanics {}
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impl CountsDropsAndPanics {
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fn new() -> Self {
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COUNTER.fetch_add(1, Relaxed);
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Self {}
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}
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}
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impl Clone for CountsDropsAndPanics {
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fn clone(&self) -> Self {
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if COUNTER.load(Relaxed) == 4 { panic!("intentional panic") } else { Self::new() }
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}
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}
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impl Drop for CountsDropsAndPanics {
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fn drop(&mut self) {
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COUNTER.fetch_sub(1, Relaxed);
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}
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}
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let a: [CountsDropsAndPanics; 3] = core::array::from_fn(|_| CountsDropsAndPanics::new());
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assert_eq!(COUNTER.load(Relaxed), 3);
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let panic_payload = std::panic::catch_unwind(|| {
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let mut storage: MaybeUninit<[CountsDropsAndPanics; 3]> = MaybeUninit::uninit();
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// This should panic halfway through
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unsafe {
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a[..].clone_to_uninit(storage.as_mut_ptr() as *mut [CountsDropsAndPanics]);
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}
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})
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.unwrap_err();
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assert_eq!(panic_payload.downcast().unwrap(), Box::new("intentional panic"));
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// Check for lack of leak, which is what this test is looking for
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assert_eq!(COUNTER.load(Relaxed), 3, "leaked during clone!");
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// Might as well exercise the rest of the drops
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drop(a);
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assert_eq!(COUNTER.load(Relaxed), 0);
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}
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#![feature(async_iterator)]
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#![feature(async_iterator)]
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#![feature(bigint_helper_methods)]
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#![feature(bigint_helper_methods)]
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#![feature(cell_update)]
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#![feature(cell_update)]
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#![feature(clone_to_uninit)]
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#![feature(const_align_offset)]
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#![feature(const_align_offset)]
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#![feature(const_align_of_val_raw)]
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#![feature(const_align_of_val_raw)]
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#![feature(const_black_box)]
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#![feature(const_black_box)]
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#![feature(slice_split_once)]
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#![feature(slice_split_once)]
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#![feature(split_as_slice)]
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#![feature(split_as_slice)]
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#![feature(maybe_uninit_fill)]
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#![feature(maybe_uninit_fill)]
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#![feature(maybe_uninit_slice)]
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#![feature(maybe_uninit_uninit_array)]
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#![feature(maybe_uninit_uninit_array)]
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#![feature(maybe_uninit_write_slice)]
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#![feature(maybe_uninit_write_slice)]
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#![feature(maybe_uninit_uninit_array_transpose)]
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#![feature(maybe_uninit_uninit_array_transpose)]
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