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rust: alloc: update VecExt
to take allocation flags
We also rename the methods by removing the `try_` prefix since the names are available due to our usage of the `no_global_oom_handling` config when building the `alloc` crate. Reviewed-by: Boqun Feng <boqun.feng@gmail.com> Signed-off-by: Wedson Almeida Filho <walmeida@microsoft.com> Reviewed-by: Benno Lossin <benno.lossin@proton.me> Link: https://lore.kernel.org/r/20240328013603.206764-8-wedsonaf@gmail.com Signed-off-by: Miguel Ojeda <ojeda@kernel.org>
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08d3f54928
commit
5ab560ce12
@ -2,47 +2,175 @@
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//! Extensions to [`Vec`] for fallible allocations.
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use alloc::{collections::TryReserveError, vec::Vec};
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use super::Flags;
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use alloc::{alloc::AllocError, vec::Vec};
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use core::result::Result;
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/// Extensions to [`Vec`].
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pub trait VecExt<T>: Sized {
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/// Creates a new [`Vec`] instance with at least the given capacity.
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fn try_with_capacity(capacity: usize) -> Result<Self, TryReserveError>;
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///
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/// # Examples
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///
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/// ```
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/// let v = Vec::<u32>::with_capacity(20, GFP_KERNEL)?;
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///
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/// assert!(v.capacity() >= 20);
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/// # Ok::<(), Error>(())
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/// ```
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fn with_capacity(capacity: usize, flags: Flags) -> Result<Self, AllocError>;
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/// Appends an element to the back of the [`Vec`] instance.
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fn try_push(&mut self, v: T) -> Result<(), TryReserveError>;
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///
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/// # Examples
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///
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/// ```
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/// let mut v = Vec::new();
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/// v.push(1, GFP_KERNEL)?;
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/// assert_eq!(&v, &[1]);
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///
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/// v.push(2, GFP_KERNEL)?;
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/// assert_eq!(&v, &[1, 2]);
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/// # Ok::<(), Error>(())
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/// ```
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fn push(&mut self, v: T, flags: Flags) -> Result<(), AllocError>;
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/// Pushes clones of the elements of slice into the [`Vec`] instance.
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fn try_extend_from_slice(&mut self, other: &[T]) -> Result<(), TryReserveError>
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///
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/// # Examples
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///
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/// ```
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/// let mut v = Vec::new();
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/// v.push(1, GFP_KERNEL)?;
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///
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/// v.extend_from_slice(&[20, 30, 40], GFP_KERNEL)?;
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/// assert_eq!(&v, &[1, 20, 30, 40]);
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///
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/// v.extend_from_slice(&[50, 60], GFP_KERNEL)?;
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/// assert_eq!(&v, &[1, 20, 30, 40, 50, 60]);
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/// # Ok::<(), Error>(())
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/// ```
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fn extend_from_slice(&mut self, other: &[T], flags: Flags) -> Result<(), AllocError>
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where
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T: Clone;
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/// Ensures that the capacity exceeds the length by at least `additional` elements.
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///
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/// # Examples
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///
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/// ```
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/// let mut v = Vec::new();
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/// v.push(1, GFP_KERNEL)?;
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///
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/// v.reserve(10, GFP_KERNEL)?;
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/// let cap = v.capacity();
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/// assert!(cap >= 10);
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///
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/// v.reserve(10, GFP_KERNEL)?;
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/// let new_cap = v.capacity();
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/// assert_eq!(new_cap, cap);
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///
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/// # Ok::<(), Error>(())
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/// ```
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fn reserve(&mut self, additional: usize, flags: Flags) -> Result<(), AllocError>;
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}
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impl<T> VecExt<T> for Vec<T> {
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fn try_with_capacity(capacity: usize) -> Result<Self, TryReserveError> {
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fn with_capacity(capacity: usize, flags: Flags) -> Result<Self, AllocError> {
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let mut v = Vec::new();
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v.try_reserve(capacity)?;
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<Self as VecExt<_>>::reserve(&mut v, capacity, flags)?;
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Ok(v)
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}
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fn try_push(&mut self, v: T) -> Result<(), TryReserveError> {
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if let Err(retry) = self.push_within_capacity(v) {
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self.try_reserve(1)?;
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let _ = self.push_within_capacity(retry);
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}
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fn push(&mut self, v: T, flags: Flags) -> Result<(), AllocError> {
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<Self as VecExt<_>>::reserve(self, 1, flags)?;
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let s = self.spare_capacity_mut();
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s[0].write(v);
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// SAFETY: We just initialised the first spare entry, so it is safe to increase the length
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// by 1. We also know that the new length is <= capacity because of the previous call to
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// `reserve` above.
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unsafe { self.set_len(self.len() + 1) };
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Ok(())
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}
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fn try_extend_from_slice(&mut self, other: &[T]) -> Result<(), TryReserveError>
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fn extend_from_slice(&mut self, other: &[T], flags: Flags) -> Result<(), AllocError>
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where
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T: Clone,
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{
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self.try_reserve(other.len())?;
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for item in other {
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self.try_push(item.clone())?;
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<Self as VecExt<_>>::reserve(self, other.len(), flags)?;
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for (slot, item) in core::iter::zip(self.spare_capacity_mut(), other) {
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slot.write(item.clone());
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}
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// SAFETY: We just initialised the `other.len()` spare entries, so it is safe to increase
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// the length by the same amount. We also know that the new length is <= capacity because
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// of the previous call to `reserve` above.
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unsafe { self.set_len(self.len() + other.len()) };
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Ok(())
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}
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#[cfg(any(test, testlib))]
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fn reserve(&mut self, additional: usize, _flags: Flags) -> Result<(), AllocError> {
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Vec::reserve(self, additional);
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Ok(())
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}
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#[cfg(not(any(test, testlib)))]
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fn reserve(&mut self, additional: usize, flags: Flags) -> Result<(), AllocError> {
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let len = self.len();
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let cap = self.capacity();
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if cap - len >= additional {
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return Ok(());
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}
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if core::mem::size_of::<T>() == 0 {
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// The capacity is already `usize::MAX` for SZTs, we can't go higher.
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return Err(AllocError);
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}
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// We know cap is <= `isize::MAX` because `Layout::array` fails if the resulting byte size
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// is greater than `isize::MAX`. So the multiplication by two won't overflow.
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let new_cap = core::cmp::max(cap * 2, len.checked_add(additional).ok_or(AllocError)?);
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let layout = core::alloc::Layout::array::<T>(new_cap).map_err(|_| AllocError)?;
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let (ptr, len, cap) = destructure(self);
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// SAFETY: `ptr` is valid because it's either NULL or comes from a previous call to
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// `krealloc_aligned`. We also verified that the type is not a ZST.
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let new_ptr = unsafe { super::allocator::krealloc_aligned(ptr.cast(), layout, flags) };
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if new_ptr.is_null() {
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// SAFETY: We are just rebuilding the existing `Vec` with no changes.
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unsafe { rebuild(self, ptr, len, cap) };
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Err(AllocError)
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} else {
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// SAFETY: `ptr` has been reallocated with the layout for `new_cap` elements. New cap
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// is greater than `cap`, so it continues to be >= `len`.
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unsafe { rebuild(self, new_ptr.cast::<T>(), len, new_cap) };
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Ok(())
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}
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}
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}
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#[cfg(not(any(test, testlib)))]
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fn destructure<T>(v: &mut Vec<T>) -> (*mut T, usize, usize) {
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let mut tmp = Vec::new();
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core::mem::swap(&mut tmp, v);
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let mut tmp = core::mem::ManuallyDrop::new(tmp);
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let len = tmp.len();
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let cap = tmp.capacity();
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(tmp.as_mut_ptr(), len, cap)
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}
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/// Rebuilds a `Vec` from a pointer, length, and capacity.
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///
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/// # Safety
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///
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/// The same as [`Vec::from_raw_parts`].
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#[cfg(not(any(test, testlib)))]
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unsafe fn rebuild<T>(v: &mut Vec<T>, ptr: *mut T, len: usize, cap: usize) {
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// SAFETY: The safety requirements from this function satisfy those of `from_raw_parts`.
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let mut tmp = unsafe { Vec::from_raw_parts(ptr, len, cap) };
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core::mem::swap(&mut tmp, v);
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}
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@ -6,10 +6,7 @@
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use crate::str::CStr;
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use alloc::{
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alloc::{AllocError, LayoutError},
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collections::TryReserveError,
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};
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use alloc::alloc::{AllocError, LayoutError};
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use core::convert::From;
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use core::fmt;
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@ -192,12 +189,6 @@ impl From<Utf8Error> for Error {
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}
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}
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impl From<TryReserveError> for Error {
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fn from(_: TryReserveError) -> Error {
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code::ENOMEM
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}
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}
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impl From<LayoutError> for Error {
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fn from(_: LayoutError) -> Error {
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code::ENOMEM
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@ -18,7 +18,6 @@
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#![feature(new_uninit)]
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#![feature(receiver_trait)]
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#![feature(unsize)]
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#![feature(vec_push_within_capacity)]
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// Ensure conditional compilation based on the kernel configuration works;
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// otherwise we may silently break things like initcall handling.
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@ -2,7 +2,7 @@
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//! String representations.
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use crate::alloc::vec_ext::VecExt;
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use crate::alloc::{flags::*, vec_ext::VecExt};
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use alloc::alloc::AllocError;
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use alloc::vec::Vec;
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use core::fmt::{self, Write};
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@ -807,7 +807,7 @@ impl CString {
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let size = f.bytes_written();
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// Allocate a vector with the required number of bytes, and write to it.
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let mut buf = Vec::try_with_capacity(size)?;
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let mut buf = <Vec<_> as VecExt<_>>::with_capacity(size, GFP_KERNEL)?;
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// SAFETY: The buffer stored in `buf` is at least of size `size` and is valid for writes.
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let mut f = unsafe { Formatter::from_buffer(buf.as_mut_ptr(), size) };
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f.write_fmt(args)?;
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@ -856,7 +856,7 @@ impl<'a> TryFrom<&'a CStr> for CString {
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fn try_from(cstr: &'a CStr) -> Result<CString, AllocError> {
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let mut buf = Vec::new();
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buf.try_extend_from_slice(cstr.as_bytes_with_nul())
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<Vec<_> as VecExt<_>>::extend_from_slice(&mut buf, cstr.as_bytes_with_nul(), GFP_KERNEL)
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.map_err(|_| AllocError)?;
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// INVARIANT: The `CStr` and `CString` types have the same invariants for
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/// let mut vec =
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/// ScopeGuard::new_with_data(Vec::new(), |v| pr_info!("vec had {} elements\n", v.len()));
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///
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/// vec.try_push(10u8)?;
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/// vec.push(10u8, GFP_KERNEL)?;
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/// if arg {
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/// return Ok(());
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/// }
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/// vec.try_push(20u8)?;
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/// vec.push(20u8, GFP_KERNEL)?;
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/// Ok(())
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/// }
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///
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pr_info!("Am I built-in? {}\n", !cfg!(MODULE));
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let mut numbers = Vec::new();
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numbers.try_push(72)?;
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numbers.try_push(108)?;
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numbers.try_push(200)?;
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numbers.push(72, GFP_KERNEL)?;
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numbers.push(108, GFP_KERNEL)?;
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numbers.push(200, GFP_KERNEL)?;
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Ok(RustMinimal { numbers })
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}
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