From a990de90fe41456a23e58bd087d2f107d321f3a1 Mon Sep 17 00:00:00 2001 From: Valentin Popov Date: Fri, 19 Jul 2024 16:37:58 +0400 Subject: Deleted vendor folder --- vendor/bytemuck/src/contiguous.rs | 202 -------------------------------------- 1 file changed, 202 deletions(-) delete mode 100644 vendor/bytemuck/src/contiguous.rs (limited to 'vendor/bytemuck/src/contiguous.rs') diff --git a/vendor/bytemuck/src/contiguous.rs b/vendor/bytemuck/src/contiguous.rs deleted file mode 100644 index 538514b..0000000 --- a/vendor/bytemuck/src/contiguous.rs +++ /dev/null @@ -1,202 +0,0 @@ -use super::*; - -/// A trait indicating that: -/// -/// 1. A type has an equivalent representation to some known integral type. -/// 2. All instances of this type fall in a fixed range of values. -/// 3. Within that range, there are no gaps. -/// -/// This is generally useful for fieldless enums (aka "c-style" enums), however -/// it's important that it only be used for those with an explicit `#[repr]`, as -/// `#[repr(Rust)]` fieldess enums have an unspecified layout. -/// -/// Additionally, you shouldn't assume that all implementations are enums. Any -/// type which meets the requirements above while following the rules under -/// "Safety" below is valid. -/// -/// # Example -/// -/// ``` -/// # use bytemuck::Contiguous; -/// #[repr(u8)] -/// #[derive(Debug, Copy, Clone, PartialEq)] -/// enum Foo { -/// A = 0, -/// B = 1, -/// C = 2, -/// D = 3, -/// E = 4, -/// } -/// unsafe impl Contiguous for Foo { -/// type Int = u8; -/// const MIN_VALUE: u8 = Foo::A as u8; -/// const MAX_VALUE: u8 = Foo::E as u8; -/// } -/// assert_eq!(Foo::from_integer(3).unwrap(), Foo::D); -/// assert_eq!(Foo::from_integer(8), None); -/// assert_eq!(Foo::C.into_integer(), 2); -/// ``` -/// # Safety -/// -/// This is an unsafe trait, and incorrectly implementing it is undefined -/// behavior. -/// -/// Informally, by implementing it, you're asserting that `C` is identical to -/// the integral type `C::Int`, and that every `C` falls between `C::MIN_VALUE` -/// and `C::MAX_VALUE` exactly once, without any gaps. -/// -/// Precisely, the guarantees you must uphold when implementing `Contiguous` for -/// some type `C` are: -/// -/// 1. The sizeĀ of `C` and `C::Int` must be the same, and neither may be a ZST. -/// (Note: alignment is explicitly allowed to differ) -/// -/// 2. `C::Int` must be a primitive integer, and not a wrapper type. In the -/// future, this may be lifted to include cases where the behavior is -/// identical for a relevant set of traits (Ord, arithmetic, ...). -/// -/// 3. All `C::Int`s which are in the *inclusive* range between `C::MIN_VALUE` -/// and `C::MAX_VALUE` are bitwise identical to unique valid instances of -/// `C`. -/// -/// 4. There exist no instances of `C` such that their bitpatterns, when -/// interpreted as instances of `C::Int`, fall outside of the `MAX_VALUE` / -/// `MIN_VALUE` range -- It is legal for unsafe code to assume that if it -/// gets a `C` that implements `Contiguous`, it is in the appropriate range. -/// -/// 5. Finally, you promise not to provide overridden implementations of -/// `Contiguous::from_integer` and `Contiguous::into_integer`. -/// -/// For clarity, the following rules could be derived from the above, but are -/// listed explicitly: -/// -/// - `C::MAX_VALUE` must be greater or equal to `C::MIN_VALUE` (therefore, `C` -/// must be an inhabited type). -/// -/// - There exist no two values between `MIN_VALUE` and `MAX_VALUE` such that -/// when interpreted as a `C` they are considered identical (by, say, match). -pub unsafe trait Contiguous: Copy + 'static { - /// The primitive integer type with an identical representation to this - /// type. - /// - /// Contiguous is broadly intended for use with fieldless enums, and for - /// these the correct integer type is easy: The enum should have a - /// `#[repr(Int)]` or `#[repr(C)]` attribute, (if it does not, it is - /// *unsound* to implement `Contiguous`!). - /// - /// - For `#[repr(Int)]`, use the listed `Int`. e.g. `#[repr(u8)]` should use - /// `type Int = u8`. - /// - /// - For `#[repr(C)]`, use whichever type the C compiler will use to - /// represent the given enum. This is usually `c_int` (from `std::os::raw` - /// or `libc`), but it's up to you to make the determination as the - /// implementer of the unsafe trait. - /// - /// For precise rules, see the list under "Safety" above. - type Int: Copy + Ord; - - /// The upper *inclusive* bound for valid instances of this type. - const MAX_VALUE: Self::Int; - - /// The lower *inclusive* bound for valid instances of this type. - const MIN_VALUE: Self::Int; - - /// If `value` is within the range for valid instances of this type, - /// returns `Some(converted_value)`, otherwise, returns `None`. - /// - /// This is a trait method so that you can write `value.into_integer()` in - /// your code. It is a contract of this trait that if you implement - /// `Contiguous` on your type you **must not** override this method. - /// - /// # Panics - /// - /// We will not panic for any correct implementation of `Contiguous`, but - /// *may* panic if we detect an incorrect one. - /// - /// This is undefined behavior regardless, so it could have been the nasal - /// demons at that point anyway ;). - #[inline] - fn from_integer(value: Self::Int) -> Option { - // Guard against an illegal implementation of Contiguous. Annoyingly we - // can't rely on `transmute` to do this for us (see below), but - // whatever, this gets compiled into nothing in release. - assert!(size_of::() == size_of::()); - if Self::MIN_VALUE <= value && value <= Self::MAX_VALUE { - // SAFETY: We've checked their bounds (and their size, even though - // they've sworn under the Oath Of Unsafe Rust that that already - // matched) so this is allowed by `Contiguous`'s unsafe contract. - // - // So, the `transmute!`. ideally we'd use transmute here, which - // is more obviously safe. Sadly, we can't, as these types still - // have unspecified sizes. - Some(unsafe { transmute!(value) }) - } else { - None - } - } - - /// Perform the conversion from `C` into the underlying integral type. This - /// mostly exists otherwise generic code would need unsafe for the `value as - /// integer` - /// - /// This is a trait method so that you can write `value.into_integer()` in - /// your code. It is a contract of this trait that if you implement - /// `Contiguous` on your type you **must not** override this method. - /// - /// # Panics - /// - /// We will not panic for any correct implementation of `Contiguous`, but - /// *may* panic if we detect an incorrect one. - /// - /// This is undefined behavior regardless, so it could have been the nasal - /// demons at that point anyway ;). - #[inline] - fn into_integer(self) -> Self::Int { - // Guard against an illegal implementation of Contiguous. Annoyingly we - // can't rely on `transmute` to do the size check for us (see - // `from_integer's comment`), but whatever, this gets compiled into - // nothing in release. Note that we don't check the result of cast - assert!(size_of::() == size_of::()); - - // SAFETY: The unsafe contract requires that these have identical - // representations, and that the range be entirely valid. Using - // transmute! instead of transmute here is annoying, but is required - // as `Self` and `Self::Int` have unspecified sizes still. - unsafe { transmute!(self) } - } -} - -macro_rules! impl_contiguous { - ($($src:ty as $repr:ident in [$min:expr, $max:expr];)*) => {$( - unsafe impl Contiguous for $src { - type Int = $repr; - const MAX_VALUE: $repr = $max; - const MIN_VALUE: $repr = $min; - } - )*}; -} - -impl_contiguous! { - bool as u8 in [0, 1]; - - u8 as u8 in [0, u8::max_value()]; - u16 as u16 in [0, u16::max_value()]; - u32 as u32 in [0, u32::max_value()]; - u64 as u64 in [0, u64::max_value()]; - u128 as u128 in [0, u128::max_value()]; - usize as usize in [0, usize::max_value()]; - - i8 as i8 in [i8::min_value(), i8::max_value()]; - i16 as i16 in [i16::min_value(), i16::max_value()]; - i32 as i32 in [i32::min_value(), i32::max_value()]; - i64 as i64 in [i64::min_value(), i64::max_value()]; - i128 as i128 in [i128::min_value(), i128::max_value()]; - isize as isize in [isize::min_value(), isize::max_value()]; - - NonZeroU8 as u8 in [1, u8::max_value()]; - NonZeroU16 as u16 in [1, u16::max_value()]; - NonZeroU32 as u32 in [1, u32::max_value()]; - NonZeroU64 as u64 in [1, u64::max_value()]; - NonZeroU128 as u128 in [1, u128::max_value()]; - NonZeroUsize as usize in [1, usize::max_value()]; -} -- cgit v1.2.3