1 files changed, 0 insertions, 236 deletions
diff --git a/src/libcore/array/iter.rs b/src/libcore/array/iter.rs
deleted file mode 100644
index 174f7e26efb..00000000000
--- a/src/libcore/array/iter.rs
+++ /dev/null
@@ -1,236 +0,0 @@
-//! Defines the `IntoIter` owned iterator for arrays.
-
-use crate::{
-    fmt,
-    iter::{ExactSizeIterator, FusedIterator, TrustedLen},
-    mem::{self, MaybeUninit},
-    ops::Range,
-    ptr,
-};
-
-/// A by-value [array] iterator.
-///
-/// [array]: ../../std/primitive.array.html
-#[unstable(feature = "array_value_iter", issue = "65798")]
-pub struct IntoIter<T, const N: usize> {
-    /// This is the array we are iterating over.
-    ///
-    /// Elements with index `i` where `alive.start <= i < alive.end` have not
-    /// been yielded yet and are valid array entries. Elements with indices `i
-    /// < alive.start` or `i >= alive.end` have been yielded already and must
-    /// not be accessed anymore! Those dead elements might even be in a
-    /// completely uninitialized state!
-    ///
-    /// So the invariants are:
-    /// - `data[alive]` is alive (i.e. contains valid elements)
-    /// - `data[..alive.start]` and `data[alive.end..]` are dead (i.e. the
-    ///   elements were already read and must not be touched anymore!)
-    data: [MaybeUninit<T>; N],
-
-    /// The elements in `data` that have not been yielded yet.
-    ///
-    /// Invariants:
-    /// - `alive.start <= alive.end`
-    /// - `alive.end <= N`
-    alive: Range<usize>,
-}
-
-impl<T, const N: usize> IntoIter<T, N> {
-    /// Creates a new iterator over the given `array`.
-    ///
-    /// *Note*: this method might never get stabilized and/or removed in the
-    /// future as there will likely be another, preferred way of obtaining this
-    /// iterator (either via `IntoIterator` for arrays or via another way).
-    #[unstable(feature = "array_value_iter", issue = "65798")]
-    pub fn new(array: [T; N]) -> Self {
-        // SAFETY: The transmute here is actually safe. The docs of `MaybeUninit`
-        // promise:
-        //
-        // > `MaybeUninit<T>` is guaranteed to have the same size and alignment
-        // > as `T`.
-        //
-        // The docs even show a transmute from an array of `MaybeUninit<T>` to
-        // an array of `T`.
-        //
-        // With that, this initialization satisfies the invariants.
-
-        // FIXME(LukasKalbertodt): actually use `mem::transmute` here, once it
-        // works with const generics:
-        //     `mem::transmute::<[T; {N}], [MaybeUninit<T>; {N}]>(array)`
-        //
-        // Until then, we do it manually here. We first create a bitwise copy
-        // but cast the pointer so that it is treated as a different type. Then
-        // we forget `array` so that it is not dropped.
-        let data = unsafe {
-            let data = ptr::read(&array as *const [T; N] as *const [MaybeUninit<T>; N]);
-            mem::forget(array);
-            data
-        };
-
-        Self { data, alive: 0..N }
-    }
-
-    /// Returns an immutable slice of all elements that have not been yielded
-    /// yet.
-    fn as_slice(&self) -> &[T] {
-        let slice = &self.data[self.alive.clone()];
-        // SAFETY: This transmute is safe. As mentioned in `new`, `MaybeUninit` retains
-        // the size and alignment of `T`. Furthermore, we know that all
-        // elements within `alive` are properly initialized.
-        unsafe { mem::transmute::<&[MaybeUninit<T>], &[T]>(slice) }
-    }
-
-    /// Returns a mutable slice of all elements that have not been yielded yet.
-    fn as_mut_slice(&mut self) -> &mut [T] {
-        // This transmute is safe, same as in `as_slice` above.
-        let slice = &mut self.data[self.alive.clone()];
-        // SAFETY: This transmute is safe. As mentioned in `new`, `MaybeUninit` retains
-        // the size and alignment of `T`. Furthermore, we know that all
-        // elements within `alive` are properly initialized.
-        unsafe { mem::transmute::<&mut [MaybeUninit<T>], &mut [T]>(slice) }
-    }
-}
-
-#[stable(feature = "array_value_iter_impls", since = "1.40.0")]
-impl<T, const N: usize> Iterator for IntoIter<T, N> {
-    type Item = T;
-    fn next(&mut self) -> Option<Self::Item> {
-        if self.alive.start == self.alive.end {
-            return None;
-        }
-
-        // Bump start index.
-        //
-        // From the check above we know that `alive.start != alive.end`.
-        // Combine this with the invariant `alive.start <= alive.end`, we know
-        // that `alive.start < alive.end`. Increasing `alive.start` by 1
-        // maintains the invariant regarding `alive`. However, due to this
-        // change, for a short time, the alive zone is not `data[alive]`
-        // anymore, but `data[idx..alive.end]`.
-        let idx = self.alive.start;
-        self.alive.start += 1;
-
-        // Read the element from the array.
-        // SAFETY: This is safe: `idx` is an index
-        // into the "alive" region of the array. Reading this element means
-        // that `data[idx]` is regarded as dead now (i.e. do not touch). As
-        // `idx` was the start of the alive-zone, the alive zone is now
-        // `data[alive]` again, restoring all invariants.
-        let out = unsafe { self.data.get_unchecked(idx).read() };
-
-        Some(out)
-    }
-
-    fn size_hint(&self) -> (usize, Option<usize>) {
-        let len = self.len();
-        (len, Some(len))
-    }
-
-    fn count(self) -> usize {
-        self.len()
-    }
-
-    fn last(mut self) -> Option<Self::Item> {
-        self.next_back()
-    }
-}
-
-#[stable(feature = "array_value_iter_impls", since = "1.40.0")]
-impl<T, const N: usize> DoubleEndedIterator for IntoIter<T, N> {
-    fn next_back(&mut self) -> Option<Self::Item> {
-        if self.alive.start == self.alive.end {
-            return None;
-        }
-
-        // Decrease end index.
-        //
-        // From the check above we know that `alive.start != alive.end`.
-        // Combine this with the invariant `alive.start <= alive.end`, we know
-        // that `alive.start < alive.end`. As `alive.start` cannot be negative,
-        // `alive.end` is at least 1, meaning that we can safely decrement it
-        // by one. This also maintains the invariant `alive.start <=
-        // alive.end`. However, due to this change, for a short time, the alive
-        // zone is not `data[alive]` anymore, but `data[alive.start..alive.end
-        // + 1]`.
-        self.alive.end -= 1;
-
-        // Read the element from the array.
-        // SAFETY: This is safe: `alive.end` is an
-        // index into the "alive" region of the array. Compare the previous
-        // comment that states that the alive region is
-        // `data[alive.start..alive.end + 1]`. Reading this element means that
-        // `data[alive.end]` is regarded as dead now (i.e. do not touch). As
-        // `alive.end` was the end of the alive-zone, the alive zone is now
-        // `data[alive]` again, restoring all invariants.
-        let out = unsafe { self.data.get_unchecked(self.alive.end).read() };
-
-        Some(out)
-    }
-}
-
-#[stable(feature = "array_value_iter_impls", since = "1.40.0")]
-impl<T, const N: usize> Drop for IntoIter<T, N> {
-    fn drop(&mut self) {
-        // SAFETY: This is safe: `as_mut_slice` returns exactly the sub-slice
-        // of elements that have not been moved out yet and that remain
-        // to be dropped.
-        unsafe { ptr::drop_in_place(self.as_mut_slice()) }
-    }
-}
-
-#[stable(feature = "array_value_iter_impls", since = "1.40.0")]
-impl<T, const N: usize> ExactSizeIterator for IntoIter<T, N> {
-    fn len(&self) -> usize {
-        // Will never underflow due to the invariant `alive.start <=
-        // alive.end`.
-        self.alive.end - self.alive.start
-    }
-    fn is_empty(&self) -> bool {
-        self.alive.is_empty()
-    }
-}
-
-#[stable(feature = "array_value_iter_impls", since = "1.40.0")]
-impl<T, const N: usize> FusedIterator for IntoIter<T, N> {}
-
-// The iterator indeed reports the correct length. The number of "alive"
-// elements (that will still be yielded) is the length of the range `alive`.
-// This range is decremented in length in either `next` or `next_back`. It is
-// always decremented by 1 in those methods, but only if `Some(_)` is returned.
-#[stable(feature = "array_value_iter_impls", since = "1.40.0")]
-unsafe impl<T, const N: usize> TrustedLen for IntoIter<T, N> {}
-
-#[stable(feature = "array_value_iter_impls", since = "1.40.0")]
-impl<T: Clone, const N: usize> Clone for IntoIter<T, N> {
-    fn clone(&self) -> Self {
-        // SAFETY: each point of unsafety is documented inside the unsafe block
-        unsafe {
-            // This creates a new uninitialized array. Note that the `assume_init`
-            // refers to the array, not the individual elements. And it is Ok if
-            // the array is in an uninitialized state as all elements may be
-            // uninitialized (all bit patterns are valid). Compare the
-            // `MaybeUninit` docs for more information.
-            let mut new_data: [MaybeUninit<T>; N] = MaybeUninit::uninit().assume_init();
-
-            // Clone all alive elements.
-            for idx in self.alive.clone() {
-                // The element at `idx` in the old array is alive, so we can
-                // safely call `get_ref()`. We then clone it, and write the
-                // clone into the new array.
-                let clone = self.data.get_unchecked(idx).get_ref().clone();
-                new_data.get_unchecked_mut(idx).write(clone);
-            }
-
-            Self { data: new_data, alive: self.alive.clone() }
-        }
-    }
-}
-
-#[stable(feature = "array_value_iter_impls", since = "1.40.0")]
-impl<T: fmt::Debug, const N: usize> fmt::Debug for IntoIter<T, N> {
-    fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
-        // Only print the elements that were not yielded yet: we cannot
-        // access the yielded elements anymore.
-        f.debug_tuple("IntoIter").field(&self.as_slice()).finish()
-    }
-}