2022-11-11 00:41:39 +08:00
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// SPDX-License-Identifier: GPL-2.0
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//! Kernel types.
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2023-01-30 14:44:02 +08:00
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use alloc::boxed::Box;
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2023-01-30 14:44:00 +08:00
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use core::{
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cell::UnsafeCell,
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mem::MaybeUninit,
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ops::{Deref, DerefMut},
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};
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2023-01-30 14:44:01 +08:00
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/// Used to transfer ownership to and from foreign (non-Rust) languages.
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///
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/// Ownership is transferred from Rust to a foreign language by calling [`Self::into_foreign`] and
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/// later may be transferred back to Rust by calling [`Self::from_foreign`].
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///
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/// This trait is meant to be used in cases when Rust objects are stored in C objects and
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/// eventually "freed" back to Rust.
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pub trait ForeignOwnable: Sized {
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/// Type of values borrowed between calls to [`ForeignOwnable::into_foreign`] and
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/// [`ForeignOwnable::from_foreign`].
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type Borrowed<'a>;
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/// Converts a Rust-owned object to a foreign-owned one.
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///
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/// The foreign representation is a pointer to void.
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fn into_foreign(self) -> *const core::ffi::c_void;
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/// Borrows a foreign-owned object.
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///
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/// # Safety
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///
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/// `ptr` must have been returned by a previous call to [`ForeignOwnable::into_foreign`] for
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/// which a previous matching [`ForeignOwnable::from_foreign`] hasn't been called yet.
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/// Additionally, all instances (if any) of values returned by [`ForeignOwnable::borrow_mut`]
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/// for this object must have been dropped.
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unsafe fn borrow<'a>(ptr: *const core::ffi::c_void) -> Self::Borrowed<'a>;
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/// Mutably borrows a foreign-owned object.
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///
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/// # Safety
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///
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/// `ptr` must have been returned by a previous call to [`ForeignOwnable::into_foreign`] for
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/// which a previous matching [`ForeignOwnable::from_foreign`] hasn't been called yet.
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/// Additionally, all instances (if any) of values returned by [`ForeignOwnable::borrow`] and
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/// [`ForeignOwnable::borrow_mut`] for this object must have been dropped.
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unsafe fn borrow_mut(ptr: *const core::ffi::c_void) -> ScopeGuard<Self, fn(Self)> {
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// SAFETY: The safety requirements ensure that `ptr` came from a previous call to
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// `into_foreign`.
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ScopeGuard::new_with_data(unsafe { Self::from_foreign(ptr) }, |d| {
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d.into_foreign();
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})
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}
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/// Converts a foreign-owned object back to a Rust-owned one.
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///
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/// # Safety
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///
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/// `ptr` must have been returned by a previous call to [`ForeignOwnable::into_foreign`] for
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/// which a previous matching [`ForeignOwnable::from_foreign`] hasn't been called yet.
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/// Additionally, all instances (if any) of values returned by [`ForeignOwnable::borrow`] and
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/// [`ForeignOwnable::borrow_mut`] for this object must have been dropped.
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unsafe fn from_foreign(ptr: *const core::ffi::c_void) -> Self;
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}
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2023-01-30 14:44:02 +08:00
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impl<T: 'static> ForeignOwnable for Box<T> {
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type Borrowed<'a> = &'a T;
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fn into_foreign(self) -> *const core::ffi::c_void {
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Box::into_raw(self) as _
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}
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unsafe fn borrow<'a>(ptr: *const core::ffi::c_void) -> &'a T {
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// SAFETY: The safety requirements for this function ensure that the object is still alive,
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// so it is safe to dereference the raw pointer.
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// The safety requirements of `from_foreign` also ensure that the object remains alive for
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// the lifetime of the returned value.
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unsafe { &*ptr.cast() }
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}
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unsafe fn from_foreign(ptr: *const core::ffi::c_void) -> Self {
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// SAFETY: The safety requirements of this function ensure that `ptr` comes from a previous
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// call to `Self::into_foreign`.
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unsafe { Box::from_raw(ptr as _) }
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}
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}
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2023-01-30 14:44:03 +08:00
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impl ForeignOwnable for () {
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type Borrowed<'a> = ();
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fn into_foreign(self) -> *const core::ffi::c_void {
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core::ptr::NonNull::dangling().as_ptr()
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}
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unsafe fn borrow<'a>(_: *const core::ffi::c_void) -> Self::Borrowed<'a> {}
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unsafe fn from_foreign(_: *const core::ffi::c_void) -> Self {}
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}
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2023-01-30 14:44:00 +08:00
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/// Runs a cleanup function/closure when dropped.
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///
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/// The [`ScopeGuard::dismiss`] function prevents the cleanup function from running.
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///
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/// # Examples
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///
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/// In the example below, we have multiple exit paths and we want to log regardless of which one is
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/// taken:
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/// ```
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/// # use kernel::ScopeGuard;
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/// fn example1(arg: bool) {
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/// let _log = ScopeGuard::new(|| pr_info!("example1 completed\n"));
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///
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/// if arg {
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/// return;
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/// }
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///
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/// pr_info!("Do something...\n");
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/// }
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///
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/// # example1(false);
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/// # example1(true);
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/// ```
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///
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/// In the example below, we want to log the same message on all early exits but a different one on
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/// the main exit path:
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/// ```
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/// # use kernel::ScopeGuard;
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/// fn example2(arg: bool) {
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/// let log = ScopeGuard::new(|| pr_info!("example2 returned early\n"));
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///
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/// if arg {
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/// return;
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/// }
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///
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/// // (Other early returns...)
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///
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/// log.dismiss();
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/// pr_info!("example2 no early return\n");
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/// }
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///
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/// # example2(false);
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/// # example2(true);
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/// ```
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///
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/// In the example below, we need a mutable object (the vector) to be accessible within the log
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/// function, so we wrap it in the [`ScopeGuard`]:
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/// ```
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/// # use kernel::ScopeGuard;
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/// fn example3(arg: bool) -> Result {
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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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/// if arg {
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/// return Ok(());
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/// }
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/// vec.try_push(20u8)?;
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/// Ok(())
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/// }
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///
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/// # assert_eq!(example3(false), Ok(()));
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/// # assert_eq!(example3(true), Ok(()));
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/// ```
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///
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/// # Invariants
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///
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/// The value stored in the struct is nearly always `Some(_)`, except between
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/// [`ScopeGuard::dismiss`] and [`ScopeGuard::drop`]: in this case, it will be `None` as the value
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/// will have been returned to the caller. Since [`ScopeGuard::dismiss`] consumes the guard,
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/// callers won't be able to use it anymore.
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pub struct ScopeGuard<T, F: FnOnce(T)>(Option<(T, F)>);
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impl<T, F: FnOnce(T)> ScopeGuard<T, F> {
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/// Creates a new guarded object wrapping the given data and with the given cleanup function.
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pub fn new_with_data(data: T, cleanup_func: F) -> Self {
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// INVARIANT: The struct is being initialised with `Some(_)`.
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Self(Some((data, cleanup_func)))
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}
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/// Prevents the cleanup function from running and returns the guarded data.
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pub fn dismiss(mut self) -> T {
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// INVARIANT: This is the exception case in the invariant; it is not visible to callers
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// because this function consumes `self`.
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self.0.take().unwrap().0
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}
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}
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impl ScopeGuard<(), fn(())> {
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/// Creates a new guarded object with the given cleanup function.
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pub fn new(cleanup: impl FnOnce()) -> ScopeGuard<(), impl FnOnce(())> {
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ScopeGuard::new_with_data((), move |_| cleanup())
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}
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}
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impl<T, F: FnOnce(T)> Deref for ScopeGuard<T, F> {
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type Target = T;
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fn deref(&self) -> &T {
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// The type invariants guarantee that `unwrap` will succeed.
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&self.0.as_ref().unwrap().0
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}
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}
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impl<T, F: FnOnce(T)> DerefMut for ScopeGuard<T, F> {
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fn deref_mut(&mut self) -> &mut T {
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// The type invariants guarantee that `unwrap` will succeed.
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&mut self.0.as_mut().unwrap().0
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}
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}
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impl<T, F: FnOnce(T)> Drop for ScopeGuard<T, F> {
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fn drop(&mut self) {
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// Run the cleanup function if one is still present.
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if let Some((data, cleanup)) = self.0.take() {
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cleanup(data)
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}
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}
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}
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2022-11-11 00:41:40 +08:00
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/// Stores an opaque value.
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///
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/// This is meant to be used with FFI objects that are never interpreted by Rust code.
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#[repr(transparent)]
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pub struct Opaque<T>(MaybeUninit<UnsafeCell<T>>);
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impl<T> Opaque<T> {
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/// Creates a new opaque value.
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pub const fn new(value: T) -> Self {
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Self(MaybeUninit::new(UnsafeCell::new(value)))
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}
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/// Creates an uninitialised value.
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pub const fn uninit() -> Self {
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Self(MaybeUninit::uninit())
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}
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/// Returns a raw pointer to the opaque data.
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pub fn get(&self) -> *mut T {
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UnsafeCell::raw_get(self.0.as_ptr())
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}
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}
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2022-11-11 00:41:39 +08:00
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/// A sum type that always holds either a value of type `L` or `R`.
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pub enum Either<L, R> {
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/// Constructs an instance of [`Either`] containing a value of type `L`.
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Left(L),
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/// Constructs an instance of [`Either`] containing a value of type `R`.
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Right(R),
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}
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