src/zeroable.rs - platform/external/rust/crates/bytemuck - Git at Google

 use super::*;

 /// Trait for types that can be safely created with
 /// [`zeroed`](core::mem::zeroed).
 ///
 /// An all-zeroes value may or may not be the same value as the
 /// [Default](core::default::Default) value of the type.
 ///
 /// ## Safety
 ///
 /// * Your type must be inhabited (eg: no
 ///   [Infallible](core::convert::Infallible)).
 /// * Your type must be allowed to be an "all zeroes" bit pattern (eg: no
 ///   [`NonNull<T>`](core::ptr::NonNull)).
 ///
 /// ## Features
 ///
 /// Some `impl`s are feature gated due to the MSRV policy:
 ///
 /// * `MaybeUninit<T>` was not available in 1.34.0, but is available under the
 ///   `zeroable_maybe_uninit` feature flag.
 /// * `Atomic*` types require Rust 1.60.0 or later to work on certain platforms, but is available
 ///   under the `zeroable_atomics` feature flag.
 /// * `[T; N]` for arbitrary `N` requires the `min_const_generics` feature flag.
 pub unsafe trait Zeroable: Sized {
   /// Calls [`zeroed`](core::mem::zeroed).
   ///
   /// This is a trait method so that you can write `MyType::zeroed()` in your
   /// code. It is a contract of this trait that if you implement it on your type
   /// you **must not** override this method.
   #[inline]
   fn zeroed() -> Self {
     unsafe { core::mem::zeroed() }
   }
 }
 unsafe impl Zeroable for () {}
 unsafe impl Zeroable for bool {}
 unsafe impl Zeroable for char {}
 unsafe impl Zeroable for u8 {}
 unsafe impl Zeroable for i8 {}
 unsafe impl Zeroable for u16 {}
 unsafe impl Zeroable for i16 {}
 unsafe impl Zeroable for u32 {}
 unsafe impl Zeroable for i32 {}
 unsafe impl Zeroable for u64 {}
 unsafe impl Zeroable for i64 {}
 unsafe impl Zeroable for usize {}
 unsafe impl Zeroable for isize {}
 unsafe impl Zeroable for u128 {}
 unsafe impl Zeroable for i128 {}
 unsafe impl Zeroable for f32 {}
 unsafe impl Zeroable for f64 {}
 unsafe impl<T: Zeroable> Zeroable for Wrapping<T> {}
 unsafe impl<T: Zeroable> Zeroable for core::cmp::Reverse<T> {}

 // Note: we can't implement this for all `T: ?Sized` types because it would
 // create NULL pointers for vtables.
 // Maybe one day this could be changed to be implemented for
 // `T: ?Sized where <T as core::ptr::Pointee>::Metadata: Zeroable`.
 unsafe impl<T> Zeroable for *mut T {}
 unsafe impl<T> Zeroable for *const T {}
 unsafe impl<T> Zeroable for *mut [T] {}
 unsafe impl<T> Zeroable for *const [T] {}
 unsafe impl Zeroable for *mut str {}
 unsafe impl Zeroable for *const str {}

 unsafe impl<T: ?Sized> Zeroable for PhantomData<T> {}
 unsafe impl Zeroable for PhantomPinned {}
 unsafe impl<T: Zeroable> Zeroable for ManuallyDrop<T> {}
 unsafe impl<T: Zeroable> Zeroable for core::cell::UnsafeCell<T> {}
 unsafe impl<T: Zeroable> Zeroable for core::cell::Cell<T> {}

 #[cfg(feature = "zeroable_atomics")]
 mod atomic_impls {
   use super::Zeroable;

   #[cfg(target_has_atomic = "8")]
   unsafe impl Zeroable for core::sync::atomic::AtomicBool {}
   #[cfg(target_has_atomic = "8")]
   unsafe impl Zeroable for core::sync::atomic::AtomicU8 {}
   #[cfg(target_has_atomic = "8")]
   unsafe impl Zeroable for core::sync::atomic::AtomicI8 {}

   #[cfg(target_has_atomic = "16")]
   unsafe impl Zeroable for core::sync::atomic::AtomicU16 {}
   #[cfg(target_has_atomic = "16")]
   unsafe impl Zeroable for core::sync::atomic::AtomicI16 {}

   #[cfg(target_has_atomic = "32")]
   unsafe impl Zeroable for core::sync::atomic::AtomicU32 {}
   #[cfg(target_has_atomic = "32")]
   unsafe impl Zeroable for core::sync::atomic::AtomicI32 {}

   #[cfg(target_has_atomic = "64")]
   unsafe impl Zeroable for core::sync::atomic::AtomicU64 {}
   #[cfg(target_has_atomic = "64")]
   unsafe impl Zeroable for core::sync::atomic::AtomicI64 {}

   #[cfg(target_has_atomic = "ptr")]
   unsafe impl Zeroable for core::sync::atomic::AtomicUsize {}
   #[cfg(target_has_atomic = "ptr")]
   unsafe impl Zeroable for core::sync::atomic::AtomicIsize {}

   #[cfg(target_has_atomic = "ptr")]
   unsafe impl<T> Zeroable for core::sync::atomic::AtomicPtr<T> {}
 }

 #[cfg(feature = "zeroable_maybe_uninit")]
 unsafe impl<T> Zeroable for core::mem::MaybeUninit<T> {}

 unsafe impl<A: Zeroable> Zeroable for (A,) {}
 unsafe impl<A: Zeroable, B: Zeroable> Zeroable for (A, B) {}
 unsafe impl<A: Zeroable, B: Zeroable, C: Zeroable> Zeroable for (A, B, C) {}
 unsafe impl<A: Zeroable, B: Zeroable, C: Zeroable, D: Zeroable> Zeroable
   for (A, B, C, D)
 {
 }
 unsafe impl<A: Zeroable, B: Zeroable, C: Zeroable, D: Zeroable, E: Zeroable>
   Zeroable for (A, B, C, D, E)
 {
 }
 unsafe impl<
     A: Zeroable,
     B: Zeroable,
     C: Zeroable,
     D: Zeroable,
     E: Zeroable,
     F: Zeroable,
   > Zeroable for (A, B, C, D, E, F)
 {
 }
 unsafe impl<
     A: Zeroable,
     B: Zeroable,
     C: Zeroable,
     D: Zeroable,
     E: Zeroable,
     F: Zeroable,
     G: Zeroable,
   > Zeroable for (A, B, C, D, E, F, G)
 {
 }
 unsafe impl<
     A: Zeroable,
     B: Zeroable,
     C: Zeroable,
     D: Zeroable,
     E: Zeroable,
     F: Zeroable,
     G: Zeroable,
     H: Zeroable,
   > Zeroable for (A, B, C, D, E, F, G, H)
 {
 }

 #[cfg(feature = "min_const_generics")]
 unsafe impl<T, const N: usize> Zeroable for [T; N] where T: Zeroable {}

 #[cfg(not(feature = "min_const_generics"))]
 impl_unsafe_marker_for_array!(
   Zeroable, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18,
   19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 48, 64, 96, 128, 256,
   512, 1024, 2048, 4096
 );

 #[cfg(all(target_arch = "wasm32", feature = "wasm_simd"))]
 impl_unsafe_marker_for_simd!(
     unsafe impl Zeroable for wasm32::{v128}
 );

 #[cfg(all(target_arch = "aarch64", feature = "aarch64_simd"))]
 impl_unsafe_marker_for_simd!(
     unsafe impl Zeroable for aarch64::{
         float32x2_t, float32x2x2_t, float32x2x3_t, float32x2x4_t, float32x4_t,
         float32x4x2_t, float32x4x3_t, float32x4x4_t, float64x1_t, float64x1x2_t,
         float64x1x3_t, float64x1x4_t, float64x2_t, float64x2x2_t, float64x2x3_t,
         float64x2x4_t, int16x4_t, int16x4x2_t, int16x4x3_t, int16x4x4_t, int16x8_t,
         int16x8x2_t, int16x8x3_t, int16x8x4_t, int32x2_t, int32x2x2_t, int32x2x3_t,
         int32x2x4_t, int32x4_t, int32x4x2_t, int32x4x3_t, int32x4x4_t, int64x1_t,
         int64x1x2_t, int64x1x3_t, int64x1x4_t, int64x2_t, int64x2x2_t, int64x2x3_t,
         int64x2x4_t, int8x16_t, int8x16x2_t, int8x16x3_t, int8x16x4_t, int8x8_t,
         int8x8x2_t, int8x8x3_t, int8x8x4_t, poly16x4_t, poly16x4x2_t, poly16x4x3_t,
         poly16x4x4_t, poly16x8_t, poly16x8x2_t, poly16x8x3_t, poly16x8x4_t,
         poly64x1_t, poly64x1x2_t, poly64x1x3_t, poly64x1x4_t, poly64x2_t,
         poly64x2x2_t, poly64x2x3_t, poly64x2x4_t, poly8x16_t, poly8x16x2_t,
         poly8x16x3_t, poly8x16x4_t, poly8x8_t, poly8x8x2_t, poly8x8x3_t, poly8x8x4_t,
         uint16x4_t, uint16x4x2_t, uint16x4x3_t, uint16x4x4_t, uint16x8_t,
         uint16x8x2_t, uint16x8x3_t, uint16x8x4_t, uint32x2_t, uint32x2x2_t,
         uint32x2x3_t, uint32x2x4_t, uint32x4_t, uint32x4x2_t, uint32x4x3_t,
         uint32x4x4_t, uint64x1_t, uint64x1x2_t, uint64x1x3_t, uint64x1x4_t,
         uint64x2_t, uint64x2x2_t, uint64x2x3_t, uint64x2x4_t, uint8x16_t,
         uint8x16x2_t, uint8x16x3_t, uint8x16x4_t, uint8x8_t, uint8x8x2_t,
         uint8x8x3_t, uint8x8x4_t,
       }
 );

 #[cfg(target_arch = "x86")]
 impl_unsafe_marker_for_simd!(
     unsafe impl Zeroable for x86::{
         __m128i, __m128, __m128d,
         __m256i, __m256, __m256d,
     }
 );

 #[cfg(target_arch = "x86_64")]
 impl_unsafe_marker_for_simd!(
     unsafe impl Zeroable for x86_64::{
         __m128i, __m128, __m128d,
         __m256i, __m256, __m256d,
     }
 );

 #[cfg(feature = "nightly_portable_simd")]
 unsafe impl<T, const N: usize> Zeroable for core::simd::Simd<T, N>
 where
   T: core::simd::SimdElement + Zeroable,
   core::simd::LaneCount<N>: core::simd::SupportedLaneCount,
 {
 }

 #[cfg(all(target_arch = "x86", feature = "nightly_stdsimd"))]
 impl_unsafe_marker_for_simd!(
     unsafe impl Zeroable for x86::{
         __m128bh, __m256bh, __m512,
         __m512bh, __m512d, __m512i,
     }
 );

 #[cfg(all(target_arch = "x86_64", feature = "nightly_stdsimd"))]
 impl_unsafe_marker_for_simd!(
     unsafe impl Zeroable for x86_64::{
         __m128bh, __m256bh, __m512,
         __m512bh, __m512d, __m512i,
     }
 );
	use super::*;

	/// Trait for types that can be safely created with
	/// [`zeroed`](core::mem::zeroed).
	///
	/// An all-zeroes value may or may not be the same value as the
	/// [Default](core::default::Default) value of the type.
	///
	/// ## Safety
	///
	/// * Your type must be inhabited (eg: no
	/// [Infallible](core::convert::Infallible)).
	/// * Your type must be allowed to be an "all zeroes" bit pattern (eg: no
	/// [`NonNull<T>`](core::ptr::NonNull)).
	///
	/// ## Features
	///
	/// Some `impl`s are feature gated due to the MSRV policy:
	///
	/// * `MaybeUninit<T>` was not available in 1.34.0, but is available under the
	/// `zeroable_maybe_uninit` feature flag.
	/// * `Atomic*` types require Rust 1.60.0 or later to work on certain platforms, but is available
	/// under the `zeroable_atomics` feature flag.
	/// * `[T; N]` for arbitrary `N` requires the `min_const_generics` feature flag.
	pub unsafe trait Zeroable: Sized {
	/// Calls [`zeroed`](core::mem::zeroed).
	///
	/// This is a trait method so that you can write `MyType::zeroed()` in your
	/// code. It is a contract of this trait that if you implement it on your type
	/// you must not override this method.
	#[inline]
	fn zeroed() -> Self {
	unsafe { core::mem::zeroed() }
	}
	}
	unsafe impl Zeroable for () {}
	unsafe impl Zeroable for bool {}
	unsafe impl Zeroable for char {}
	unsafe impl Zeroable for u8 {}
	unsafe impl Zeroable for i8 {}
	unsafe impl Zeroable for u16 {}
	unsafe impl Zeroable for i16 {}
	unsafe impl Zeroable for u32 {}
	unsafe impl Zeroable for i32 {}
	unsafe impl Zeroable for u64 {}
	unsafe impl Zeroable for i64 {}
	unsafe impl Zeroable for usize {}
	unsafe impl Zeroable for isize {}
	unsafe impl Zeroable for u128 {}
	unsafe impl Zeroable for i128 {}
	unsafe impl Zeroable for f32 {}
	unsafe impl Zeroable for f64 {}
	unsafe impl<T: Zeroable> Zeroable for Wrapping<T> {}
	unsafe impl<T: Zeroable> Zeroable for core::cmp::Reverse<T> {}

	// Note: we can't implement this for all `T: ?Sized` types because it would
	// create NULL pointers for vtables.
	// Maybe one day this could be changed to be implemented for
	// `T: ?Sized where <T as core::ptr::Pointee>::Metadata: Zeroable`.
	unsafe impl<T> Zeroable for *mut T {}
	unsafe impl<T> Zeroable for *const T {}
	unsafe impl<T> Zeroable for *mut [T] {}
	unsafe impl<T> Zeroable for *const [T] {}
	unsafe impl Zeroable for *mut str {}
	unsafe impl Zeroable for *const str {}

	unsafe impl<T: ?Sized> Zeroable for PhantomData<T> {}
	unsafe impl Zeroable for PhantomPinned {}
	unsafe impl<T: Zeroable> Zeroable for ManuallyDrop<T> {}
	unsafe impl<T: Zeroable> Zeroable for core::cell::UnsafeCell<T> {}
	unsafe impl<T: Zeroable> Zeroable for core::cell::Cell<T> {}

	#[cfg(feature = "zeroable_atomics")]
	mod atomic_impls {
	use super::Zeroable;

	#[cfg(target_has_atomic = "8")]
	unsafe impl Zeroable for core::sync::atomic::AtomicBool {}
	#[cfg(target_has_atomic = "8")]
	unsafe impl Zeroable for core::sync::atomic::AtomicU8 {}
	#[cfg(target_has_atomic = "8")]
	unsafe impl Zeroable for core::sync::atomic::AtomicI8 {}

	#[cfg(target_has_atomic = "16")]
	unsafe impl Zeroable for core::sync::atomic::AtomicU16 {}
	#[cfg(target_has_atomic = "16")]
	unsafe impl Zeroable for core::sync::atomic::AtomicI16 {}

	#[cfg(target_has_atomic = "32")]
	unsafe impl Zeroable for core::sync::atomic::AtomicU32 {}
	#[cfg(target_has_atomic = "32")]
	unsafe impl Zeroable for core::sync::atomic::AtomicI32 {}

	#[cfg(target_has_atomic = "64")]
	unsafe impl Zeroable for core::sync::atomic::AtomicU64 {}
	#[cfg(target_has_atomic = "64")]
	unsafe impl Zeroable for core::sync::atomic::AtomicI64 {}

	#[cfg(target_has_atomic = "ptr")]
	unsafe impl Zeroable for core::sync::atomic::AtomicUsize {}
	#[cfg(target_has_atomic = "ptr")]
	unsafe impl Zeroable for core::sync::atomic::AtomicIsize {}

	#[cfg(target_has_atomic = "ptr")]
	unsafe impl<T> Zeroable for core::sync::atomic::AtomicPtr<T> {}
	}

	#[cfg(feature = "zeroable_maybe_uninit")]
	unsafe impl<T> Zeroable for core::mem::MaybeUninit<T> {}

	unsafe impl<A: Zeroable> Zeroable for (A,) {}
	unsafe impl<A: Zeroable, B: Zeroable> Zeroable for (A, B) {}
	unsafe impl<A: Zeroable, B: Zeroable, C: Zeroable> Zeroable for (A, B, C) {}
	unsafe impl<A: Zeroable, B: Zeroable, C: Zeroable, D: Zeroable> Zeroable
	for (A, B, C, D)
	{
	}
	unsafe impl<A: Zeroable, B: Zeroable, C: Zeroable, D: Zeroable, E: Zeroable>
	Zeroable for (A, B, C, D, E)
	{
	}
	unsafe impl<
	A: Zeroable,
	B: Zeroable,
	C: Zeroable,
	D: Zeroable,
	E: Zeroable,
	F: Zeroable,
	> Zeroable for (A, B, C, D, E, F)
	{
	}
	unsafe impl<
	A: Zeroable,
	B: Zeroable,
	C: Zeroable,
	D: Zeroable,
	E: Zeroable,
	F: Zeroable,
	G: Zeroable,
	> Zeroable for (A, B, C, D, E, F, G)
	{
	}
	unsafe impl<
	A: Zeroable,
	B: Zeroable,
	C: Zeroable,
	D: Zeroable,
	E: Zeroable,
	F: Zeroable,
	G: Zeroable,
	H: Zeroable,
	> Zeroable for (A, B, C, D, E, F, G, H)
	{
	}

	#[cfg(feature = "min_const_generics")]
	unsafe impl<T, const N: usize> Zeroable for [T; N] where T: Zeroable {}

	#[cfg(not(feature = "min_const_generics"))]
	impl_unsafe_marker_for_array!(
	Zeroable, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18,
	19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 48, 64, 96, 128, 256,
	512, 1024, 2048, 4096
	);

	#[cfg(all(target_arch = "wasm32", feature = "wasm_simd"))]
	impl_unsafe_marker_for_simd!(
	unsafe impl Zeroable for wasm32::{v128}
	);

	#[cfg(all(target_arch = "aarch64", feature = "aarch64_simd"))]
	impl_unsafe_marker_for_simd!(
	unsafe impl Zeroable for aarch64::{
	float32x2_t, float32x2x2_t, float32x2x3_t, float32x2x4_t, float32x4_t,
	float32x4x2_t, float32x4x3_t, float32x4x4_t, float64x1_t, float64x1x2_t,
	float64x1x3_t, float64x1x4_t, float64x2_t, float64x2x2_t, float64x2x3_t,
	float64x2x4_t, int16x4_t, int16x4x2_t, int16x4x3_t, int16x4x4_t, int16x8_t,
	int16x8x2_t, int16x8x3_t, int16x8x4_t, int32x2_t, int32x2x2_t, int32x2x3_t,
	int32x2x4_t, int32x4_t, int32x4x2_t, int32x4x3_t, int32x4x4_t, int64x1_t,
	int64x1x2_t, int64x1x3_t, int64x1x4_t, int64x2_t, int64x2x2_t, int64x2x3_t,
	int64x2x4_t, int8x16_t, int8x16x2_t, int8x16x3_t, int8x16x4_t, int8x8_t,
	int8x8x2_t, int8x8x3_t, int8x8x4_t, poly16x4_t, poly16x4x2_t, poly16x4x3_t,
	poly16x4x4_t, poly16x8_t, poly16x8x2_t, poly16x8x3_t, poly16x8x4_t,
	poly64x1_t, poly64x1x2_t, poly64x1x3_t, poly64x1x4_t, poly64x2_t,
	poly64x2x2_t, poly64x2x3_t, poly64x2x4_t, poly8x16_t, poly8x16x2_t,
	poly8x16x3_t, poly8x16x4_t, poly8x8_t, poly8x8x2_t, poly8x8x3_t, poly8x8x4_t,
	uint16x4_t, uint16x4x2_t, uint16x4x3_t, uint16x4x4_t, uint16x8_t,
	uint16x8x2_t, uint16x8x3_t, uint16x8x4_t, uint32x2_t, uint32x2x2_t,
	uint32x2x3_t, uint32x2x4_t, uint32x4_t, uint32x4x2_t, uint32x4x3_t,
	uint32x4x4_t, uint64x1_t, uint64x1x2_t, uint64x1x3_t, uint64x1x4_t,
	uint64x2_t, uint64x2x2_t, uint64x2x3_t, uint64x2x4_t, uint8x16_t,
	uint8x16x2_t, uint8x16x3_t, uint8x16x4_t, uint8x8_t, uint8x8x2_t,
	uint8x8x3_t, uint8x8x4_t,
	}
	);

	#[cfg(target_arch = "x86")]
	impl_unsafe_marker_for_simd!(
	unsafe impl Zeroable for x86::{
	__m128i, __m128, __m128d,
	__m256i, __m256, __m256d,
	}
	);

	#[cfg(target_arch = "x86_64")]
	impl_unsafe_marker_for_simd!(
	unsafe impl Zeroable for x86_64::{
	__m128i, __m128, __m128d,
	__m256i, __m256, __m256d,
	}
	);

	#[cfg(feature = "nightly_portable_simd")]
	unsafe impl<T, const N: usize> Zeroable for core::simd::Simd<T, N>
	where
	T: core::simd::SimdElement + Zeroable,
	core::simd::LaneCount<N>: core::simd::SupportedLaneCount,
	{
	}

	#[cfg(all(target_arch = "x86", feature = "nightly_stdsimd"))]
	impl_unsafe_marker_for_simd!(
	unsafe impl Zeroable for x86::{
	__m128bh, __m256bh, __m512,
	__m512bh, __m512d, __m512i,
	}
	);

	#[cfg(all(target_arch = "x86_64", feature = "nightly_stdsimd"))]
	impl_unsafe_marker_for_simd!(
	unsafe impl Zeroable for x86_64::{
	__m128bh, __m256bh, __m512,
	__m512bh, __m512d, __m512i,
	}
	);