tests/checked_tests.rs - platform/external/rust/crates/bytemuck - Git at Google

 use core::{
   mem::size_of,
   num::{NonZeroU32, NonZeroU8},
 };

 use bytemuck::{checked::CheckedCastError, *};

 #[test]
 fn test_try_cast_slice() {
   // some align4 data
   let nonzero_u32_slice: &[NonZeroU32] = &[
     NonZeroU32::new(4).unwrap(),
     NonZeroU32::new(5).unwrap(),
     NonZeroU32::new(6).unwrap(),
   ];

   // contains bytes with invalid bitpattern for NonZeroU8
   assert_eq!(
     checked::try_cast_slice::<NonZeroU32, NonZeroU8>(nonzero_u32_slice),
     Err(CheckedCastError::InvalidBitPattern)
   );

   // the same data as align1
   let the_bytes: &[u8] = checked::try_cast_slice(nonzero_u32_slice).unwrap();

   assert_eq!(
     nonzero_u32_slice.as_ptr() as *const NonZeroU32 as usize,
     the_bytes.as_ptr() as *const u8 as usize
   );
   assert_eq!(
     nonzero_u32_slice.len() * size_of::<NonZeroU32>(),
     the_bytes.len() * size_of::<u8>()
   );

   // by taking one byte off the front, we're definitely mis-aligned for
   // NonZeroU32.
   let mis_aligned_bytes = &the_bytes[1..];
   assert_eq!(
     checked::try_cast_slice::<u8, NonZeroU32>(mis_aligned_bytes),
     Err(CheckedCastError::PodCastError(
       PodCastError::TargetAlignmentGreaterAndInputNotAligned
     ))
   );

   // by taking one byte off the end, we're aligned but would have slop bytes for
   // NonZeroU32
   let the_bytes_len_minus1 = the_bytes.len() - 1;
   let slop_bytes = &the_bytes[..the_bytes_len_minus1];
   assert_eq!(
     checked::try_cast_slice::<u8, NonZeroU32>(slop_bytes),
     Err(CheckedCastError::PodCastError(PodCastError::OutputSliceWouldHaveSlop))
   );

   // if we don't mess with it we can up-alignment cast
   checked::try_cast_slice::<u8, NonZeroU32>(the_bytes).unwrap();
 }

 #[test]
 fn test_try_cast_slice_mut() {
   // some align4 data
   let u32_slice: &mut [u32] = &mut [4, 5, 6];

   // contains bytes with invalid bitpattern for NonZeroU8
   assert_eq!(
     checked::try_cast_slice_mut::<u32, NonZeroU8>(u32_slice),
     Err(CheckedCastError::InvalidBitPattern)
   );

   // some align4 data
   let u32_slice: &mut [u32] = &mut [0x4444_4444, 0x5555_5555, 0x6666_6666];
   let u32_len = u32_slice.len();
   let u32_ptr = u32_slice.as_ptr();

   // the same data as align1, nonzero bytes
   let the_nonzero_bytes: &mut [NonZeroU8] =
     checked::try_cast_slice_mut(u32_slice).unwrap();
   let the_nonzero_bytes_len = the_nonzero_bytes.len();
   let the_nonzero_bytes_ptr = the_nonzero_bytes.as_ptr();

   assert_eq!(
     u32_ptr as *const u32 as usize,
     the_nonzero_bytes_ptr as *const NonZeroU8 as usize
   );
   assert_eq!(
     u32_len * size_of::<u32>(),
     the_nonzero_bytes_len * size_of::<NonZeroU8>()
   );

   // the same data as align1
   let the_bytes: &mut [u8] = checked::try_cast_slice_mut(u32_slice).unwrap();
   let the_bytes_len = the_bytes.len();
   let the_bytes_ptr = the_bytes.as_ptr();

   assert_eq!(
     u32_ptr as *const u32 as usize,
     the_bytes_ptr as *const u8 as usize
   );
   assert_eq!(
     u32_len * size_of::<u32>(),
     the_bytes_len * size_of::<NonZeroU8>()
   );

   // by taking one byte off the front, we're definitely mis-aligned for u32.
   let mis_aligned_bytes = &mut the_bytes[1..];
   assert_eq!(
     checked::try_cast_slice_mut::<u8, NonZeroU32>(mis_aligned_bytes),
     Err(CheckedCastError::PodCastError(
       PodCastError::TargetAlignmentGreaterAndInputNotAligned
     ))
   );

   // by taking one byte off the end, we're aligned but would have slop bytes for
   // NonZeroU32
   let the_bytes_len_minus1 = the_bytes.len() - 1;
   let slop_bytes = &mut the_bytes[..the_bytes_len_minus1];
   assert_eq!(
     checked::try_cast_slice_mut::<u8, NonZeroU32>(slop_bytes),
     Err(CheckedCastError::PodCastError(PodCastError::OutputSliceWouldHaveSlop))
   );

   // if we don't mess with it we can up-alignment cast, since there are no
   // zeroes in the original slice
   checked::try_cast_slice_mut::<u8, NonZeroU32>(the_bytes).unwrap();
 }

 #[test]
 fn test_types() {
   let _: NonZeroU32 = checked::cast(1.0_f32);
   let _: &mut NonZeroU32 = checked::cast_mut(&mut 1.0_f32);
   let _: &NonZeroU32 = checked::cast_ref(&1.0_f32);
   let _: &[NonZeroU32] = checked::cast_slice(&[1.0_f32]);
   let _: &mut [NonZeroU32] = checked::cast_slice_mut(&mut [1.0_f32]);
   //
   let _: Result<NonZeroU32, CheckedCastError> = checked::try_cast(1.0_f32);
   let _: Result<&mut NonZeroU32, CheckedCastError> =
     checked::try_cast_mut(&mut 1.0_f32);
   let _: Result<&NonZeroU32, CheckedCastError> =
     checked::try_cast_ref(&1.0_f32);
   let _: Result<&[NonZeroU32], CheckedCastError> =
     checked::try_cast_slice(&[1.0_f32]);
   let _: Result<&mut [NonZeroU32], CheckedCastError> =
     checked::try_cast_slice_mut(&mut [1.0_f32]);
 }

 #[test]
 fn test_try_pod_read_unaligned() {
   let u32s = [0xaabbccdd, 0x11223344_u32];
   let bytes = bytemuck::checked::cast_slice::<u32, u8>(&u32s);

   #[cfg(target_endian = "big")]
   assert_eq!(
     checked::try_pod_read_unaligned::<NonZeroU32>(&bytes[1..5]),
     Ok(NonZeroU32::new(0xbbccdd11).unwrap())
   );
   #[cfg(target_endian = "little")]
   assert_eq!(
     checked::try_pod_read_unaligned::<NonZeroU32>(&bytes[1..5]),
     Ok(NonZeroU32::new(0x44aabbcc).unwrap())
   );

   let u32s = [0; 2];
   let bytes = bytemuck::checked::cast_slice::<u32, u8>(&u32s);

   assert_eq!(
     checked::try_pod_read_unaligned::<NonZeroU32>(&bytes[1..5]),
     Err(CheckedCastError::InvalidBitPattern)
   );
 }

 #[test]
 fn test_try_from_bytes() {
   let nonzero_u32s = [
     NonZeroU32::new(0xaabbccdd).unwrap(),
     NonZeroU32::new(0x11223344).unwrap(),
   ];
   let bytes = bytemuck::checked::cast_slice::<NonZeroU32, u8>(&nonzero_u32s);
   assert_eq!(
     checked::try_from_bytes::<NonZeroU32>(&bytes[..4]),
     Ok(&nonzero_u32s[0])
   );
   assert_eq!(
     checked::try_from_bytes::<NonZeroU32>(&bytes[..5]),
     Err(CheckedCastError::PodCastError(PodCastError::SizeMismatch))
   );
   assert_eq!(
     checked::try_from_bytes::<NonZeroU32>(&bytes[..3]),
     Err(CheckedCastError::PodCastError(PodCastError::SizeMismatch))
   );
   assert_eq!(
     checked::try_from_bytes::<NonZeroU32>(&bytes[1..5]),
     Err(CheckedCastError::PodCastError(
       PodCastError::TargetAlignmentGreaterAndInputNotAligned
     ))
   );

   let zero_u32s = [0, 0x11223344_u32];
   let bytes = bytemuck::checked::cast_slice::<u32, u8>(&zero_u32s);
   assert_eq!(
     checked::try_from_bytes::<NonZeroU32>(&bytes[..4]),
     Err(CheckedCastError::InvalidBitPattern)
   );
   assert_eq!(
     checked::try_from_bytes::<NonZeroU32>(&bytes[4..]),
     Ok(&NonZeroU32::new(zero_u32s[1]).unwrap())
   );
   assert_eq!(
     checked::try_from_bytes::<NonZeroU32>(&bytes[..5]),
     Err(CheckedCastError::PodCastError(PodCastError::SizeMismatch))
   );
   assert_eq!(
     checked::try_from_bytes::<NonZeroU32>(&bytes[..3]),
     Err(CheckedCastError::PodCastError(PodCastError::SizeMismatch))
   );
   assert_eq!(
     checked::try_from_bytes::<NonZeroU32>(&bytes[1..5]),
     Err(CheckedCastError::PodCastError(
       PodCastError::TargetAlignmentGreaterAndInputNotAligned
     ))
   );
 }

 #[test]
 fn test_try_from_bytes_mut() {
   let a = 0xaabbccdd_u32;
   let b = 0x11223344_u32;
   let mut u32s = [a, b];
   let bytes = bytemuck::checked::cast_slice_mut::<u32, u8>(&mut u32s);
   assert_eq!(
     checked::try_from_bytes_mut::<NonZeroU32>(&mut bytes[..4]),
     Ok(&mut NonZeroU32::new(a).unwrap())
   );
   assert_eq!(
     checked::try_from_bytes_mut::<NonZeroU32>(&mut bytes[4..]),
     Ok(&mut NonZeroU32::new(b).unwrap())
   );
   assert_eq!(
     checked::try_from_bytes_mut::<NonZeroU32>(&mut bytes[..5]),
     Err(CheckedCastError::PodCastError(PodCastError::SizeMismatch))
   );
   assert_eq!(
     checked::try_from_bytes_mut::<NonZeroU32>(&mut bytes[..3]),
     Err(CheckedCastError::PodCastError(PodCastError::SizeMismatch))
   );
   assert_eq!(
     checked::try_from_bytes::<NonZeroU32>(&bytes[1..5]),
     Err(CheckedCastError::PodCastError(
       PodCastError::TargetAlignmentGreaterAndInputNotAligned
     ))
   );

   let mut u32s = [0, b];
   let bytes = bytemuck::checked::cast_slice_mut::<u32, u8>(&mut u32s);
   assert_eq!(
     checked::try_from_bytes_mut::<NonZeroU32>(&mut bytes[..4]),
     Err(CheckedCastError::InvalidBitPattern)
   );
   assert_eq!(
     checked::try_from_bytes_mut::<NonZeroU32>(&mut bytes[4..]),
     Ok(&mut NonZeroU32::new(b).unwrap())
   );
   assert_eq!(
     checked::try_from_bytes_mut::<NonZeroU32>(&mut bytes[..5]),
     Err(CheckedCastError::PodCastError(PodCastError::SizeMismatch))
   );
   assert_eq!(
     checked::try_from_bytes_mut::<NonZeroU32>(&mut bytes[..3]),
     Err(CheckedCastError::PodCastError(PodCastError::SizeMismatch))
   );
   assert_eq!(
     checked::try_from_bytes::<NonZeroU32>(&bytes[1..5]),
     Err(CheckedCastError::PodCastError(
       PodCastError::TargetAlignmentGreaterAndInputNotAligned
     ))
   );
 }

 #[test]
 fn test_from_bytes() {
   let abcd = 0xaabbccdd_u32;
   let aligned_bytes = bytemuck::bytes_of(&abcd);
   assert_eq!(
     checked::from_bytes::<NonZeroU32>(aligned_bytes),
     &NonZeroU32::new(abcd).unwrap()
   );
   assert!(core::ptr::eq(
     checked::from_bytes(aligned_bytes) as *const NonZeroU32 as *const u32,
     &abcd
   ));
 }

 #[test]
 fn test_from_bytes_mut() {
   let mut a = 0xaabbccdd_u32;
   let a_addr = &a as *const _ as usize;
   let aligned_bytes = bytemuck::bytes_of_mut(&mut a);
   assert_eq!(
     *checked::from_bytes_mut::<NonZeroU32>(aligned_bytes),
     NonZeroU32::new(0xaabbccdd).unwrap()
   );
   assert_eq!(
     checked::from_bytes_mut::<NonZeroU32>(aligned_bytes) as *const NonZeroU32
       as usize,
     a_addr
   );
 }

 // like #[should_panic], but can be a part of another test, instead of requiring
 // it to be it's own test.
 macro_rules! should_panic {
   ($ex:expr) => {
     assert!(
       std::panic::catch_unwind(|| {
         let _ = $ex;
       })
       .is_err(),
       concat!("should have panicked: `", stringify!($ex), "`")
     );
   };
 }

 #[test]
 fn test_panics() {
   should_panic!(checked::cast::<u32, NonZeroU32>(0));
   should_panic!(checked::cast_ref::<u32, NonZeroU32>(&0));
   should_panic!(checked::cast_mut::<u32, NonZeroU32>(&mut 0));
   should_panic!(checked::cast_slice::<u8, NonZeroU32>(&[1u8, 2u8]));
   should_panic!(checked::cast_slice_mut::<u8, NonZeroU32>(&mut [1u8, 2u8]));
   should_panic!(checked::from_bytes::<NonZeroU32>(&[1u8, 2]));
   should_panic!(checked::from_bytes::<NonZeroU32>(&[1u8, 2, 3, 4, 5]));
   should_panic!(checked::from_bytes_mut::<NonZeroU32>(&mut [1u8, 2]));
   should_panic!(checked::from_bytes_mut::<NonZeroU32>(&mut [1u8, 2, 3, 4, 5]));
   // use cast_slice on some u32s to get some align>=4 bytes, so we can know
   // we'll give from_bytes unaligned ones.
   let aligned_bytes = bytemuck::cast_slice::<u32, u8>(&[0, 0]);
   should_panic!(checked::from_bytes::<NonZeroU32>(aligned_bytes));
   should_panic!(checked::from_bytes::<NonZeroU32>(&aligned_bytes[1..5]));
   should_panic!(checked::pod_read_unaligned::<NonZeroU32>(
     &aligned_bytes[1..5]
   ));
 }

 #[test]
 fn test_char() {
   assert_eq!(checked::try_cast::<u32, char>(0), Ok('\0'));
   assert_eq!(checked::try_cast::<u32, char>(0xd7ff), Ok('\u{d7ff}'));
   assert_eq!(
     checked::try_cast::<u32, char>(0xd800),
     Err(CheckedCastError::InvalidBitPattern)
   );
   assert_eq!(
     checked::try_cast::<u32, char>(0xdfff),
     Err(CheckedCastError::InvalidBitPattern)
   );
   assert_eq!(checked::try_cast::<u32, char>(0xe000), Ok('\u{e000}'));
   assert_eq!(checked::try_cast::<u32, char>(0x10ffff), Ok('\u{10ffff}'));
   assert_eq!(
     checked::try_cast::<u32, char>(0x110000),
     Err(CheckedCastError::InvalidBitPattern)
   );
   assert_eq!(
     checked::try_cast::<u32, char>(-1i32 as u32),
     Err(CheckedCastError::InvalidBitPattern)
   );
 }

 #[test]
 fn test_bool() {
   assert_eq!(checked::try_cast::<u8, bool>(0), Ok(false));
   assert_eq!(checked::try_cast::<u8, bool>(1), Ok(true));
   for i in 2..=255 {
     assert_eq!(
       checked::try_cast::<u8, bool>(i),
       Err(CheckedCastError::InvalidBitPattern)
     );
   }

   assert_eq!(checked::try_from_bytes::<bool>(&[1]), Ok(&true));
   assert_eq!(
     checked::try_from_bytes::<bool>(&[3]),
     Err(CheckedCastError::InvalidBitPattern)
   );
   assert_eq!(
     checked::try_from_bytes::<bool>(&[0, 1]),
     Err(CheckedCastError::PodCastError(PodCastError::SizeMismatch))
   );
 }

 #[test]
 fn test_all_nonzero() {
   use core::num::*;
   macro_rules! test_nonzero {
     ($nonzero:ty: $primitive:ty) => {
       assert_eq!(
         checked::try_cast::<$primitive, $nonzero>(0),
         Err(CheckedCastError::InvalidBitPattern)
       );
       assert_eq!(
         checked::try_cast::<$primitive, $nonzero>(1),
         Ok(<$nonzero>::new(1).unwrap())
       );
     };
   }

   test_nonzero!(NonZeroU8: u8);
   test_nonzero!(NonZeroI8: i8);
   test_nonzero!(NonZeroU16: u16);
   test_nonzero!(NonZeroI16: i16);
   test_nonzero!(NonZeroU32: u32);
   test_nonzero!(NonZeroI32: i32);
   test_nonzero!(NonZeroU64: u64);
   test_nonzero!(NonZeroI64: i64);
   test_nonzero!(NonZeroU128: u128);
   test_nonzero!(NonZeroI128: i128);
   test_nonzero!(NonZeroUsize: usize);
   test_nonzero!(NonZeroIsize: isize);
 }
	use core::{
	mem::size_of,
	num::{NonZeroU32, NonZeroU8},
	};

	use bytemuck::{checked::CheckedCastError, *};

	#[test]
	fn test_try_cast_slice() {
	// some align4 data
	let nonzero_u32_slice: &[NonZeroU32] = &[
	NonZeroU32::new(4).unwrap(),
	NonZeroU32::new(5).unwrap(),
	NonZeroU32::new(6).unwrap(),
	];

	// contains bytes with invalid bitpattern for NonZeroU8
	assert_eq!(
	checked::try_cast_slice::<NonZeroU32, NonZeroU8>(nonzero_u32_slice),
	Err(CheckedCastError::InvalidBitPattern)
	);

	// the same data as align1
	let the_bytes: &[u8] = checked::try_cast_slice(nonzero_u32_slice).unwrap();

	assert_eq!(
	nonzero_u32_slice.as_ptr() as *const NonZeroU32 as usize,
	the_bytes.as_ptr() as *const u8 as usize
	);
	assert_eq!(
	nonzero_u32_slice.len() * size_of::<NonZeroU32>(),
	the_bytes.len() * size_of::<u8>()
	);

	// by taking one byte off the front, we're definitely mis-aligned for
	// NonZeroU32.
	let mis_aligned_bytes = &the_bytes[1..];
	assert_eq!(
	checked::try_cast_slice::<u8, NonZeroU32>(mis_aligned_bytes),
	Err(CheckedCastError::PodCastError(
	PodCastError::TargetAlignmentGreaterAndInputNotAligned
	))
	);

	// by taking one byte off the end, we're aligned but would have slop bytes for
	// NonZeroU32
	let the_bytes_len_minus1 = the_bytes.len() - 1;
	let slop_bytes = &the_bytes[..the_bytes_len_minus1];
	assert_eq!(
	checked::try_cast_slice::<u8, NonZeroU32>(slop_bytes),
	Err(CheckedCastError::PodCastError(PodCastError::OutputSliceWouldHaveSlop))
	);

	// if we don't mess with it we can up-alignment cast
	checked::try_cast_slice::<u8, NonZeroU32>(the_bytes).unwrap();
	}

	#[test]
	fn test_try_cast_slice_mut() {
	// some align4 data
	let u32_slice: &mut [u32] = &mut [4, 5, 6];

	// contains bytes with invalid bitpattern for NonZeroU8
	assert_eq!(
	checked::try_cast_slice_mut::<u32, NonZeroU8>(u32_slice),
	Err(CheckedCastError::InvalidBitPattern)
	);

	// some align4 data
	let u32_slice: &mut [u32] = &mut [0x4444_4444, 0x5555_5555, 0x6666_6666];
	let u32_len = u32_slice.len();
	let u32_ptr = u32_slice.as_ptr();

	// the same data as align1, nonzero bytes
	let the_nonzero_bytes: &mut [NonZeroU8] =
	checked::try_cast_slice_mut(u32_slice).unwrap();
	let the_nonzero_bytes_len = the_nonzero_bytes.len();
	let the_nonzero_bytes_ptr = the_nonzero_bytes.as_ptr();

	assert_eq!(
	u32_ptr as *const u32 as usize,
	the_nonzero_bytes_ptr as *const NonZeroU8 as usize
	);
	assert_eq!(
	u32_len * size_of::<u32>(),
	the_nonzero_bytes_len * size_of::<NonZeroU8>()
	);

	// the same data as align1
	let the_bytes: &mut [u8] = checked::try_cast_slice_mut(u32_slice).unwrap();
	let the_bytes_len = the_bytes.len();
	let the_bytes_ptr = the_bytes.as_ptr();

	assert_eq!(
	u32_ptr as *const u32 as usize,
	the_bytes_ptr as *const u8 as usize
	);
	assert_eq!(
	u32_len * size_of::<u32>(),
	the_bytes_len * size_of::<NonZeroU8>()
	);

	// by taking one byte off the front, we're definitely mis-aligned for u32.
	let mis_aligned_bytes = &mut the_bytes[1..];
	assert_eq!(
	checked::try_cast_slice_mut::<u8, NonZeroU32>(mis_aligned_bytes),
	Err(CheckedCastError::PodCastError(
	PodCastError::TargetAlignmentGreaterAndInputNotAligned
	))
	);

	// by taking one byte off the end, we're aligned but would have slop bytes for
	// NonZeroU32
	let the_bytes_len_minus1 = the_bytes.len() - 1;
	let slop_bytes = &mut the_bytes[..the_bytes_len_minus1];
	assert_eq!(
	checked::try_cast_slice_mut::<u8, NonZeroU32>(slop_bytes),
	Err(CheckedCastError::PodCastError(PodCastError::OutputSliceWouldHaveSlop))
	);

	// if we don't mess with it we can up-alignment cast, since there are no
	// zeroes in the original slice
	checked::try_cast_slice_mut::<u8, NonZeroU32>(the_bytes).unwrap();
	}

	#[test]
	fn test_types() {
	let _: NonZeroU32 = checked::cast(1.0_f32);
	let _: &mut NonZeroU32 = checked::cast_mut(&mut 1.0_f32);
	let _: &NonZeroU32 = checked::cast_ref(&1.0_f32);
	let _: &[NonZeroU32] = checked::cast_slice(&[1.0_f32]);
	let _: &mut [NonZeroU32] = checked::cast_slice_mut(&mut [1.0_f32]);
	//
	let _: Result<NonZeroU32, CheckedCastError> = checked::try_cast(1.0_f32);
	let _: Result<&mut NonZeroU32, CheckedCastError> =
	checked::try_cast_mut(&mut 1.0_f32);
	let _: Result<&NonZeroU32, CheckedCastError> =
	checked::try_cast_ref(&1.0_f32);
	let _: Result<&[NonZeroU32], CheckedCastError> =
	checked::try_cast_slice(&[1.0_f32]);
	let _: Result<&mut [NonZeroU32], CheckedCastError> =
	checked::try_cast_slice_mut(&mut [1.0_f32]);
	}

	#[test]
	fn test_try_pod_read_unaligned() {
	let u32s = [0xaabbccdd, 0x11223344_u32];
	let bytes = bytemuck::checked::cast_slice::<u32, u8>(&u32s);

	#[cfg(target_endian = "big")]
	assert_eq!(
	checked::try_pod_read_unaligned::<NonZeroU32>(&bytes[1..5]),
	Ok(NonZeroU32::new(0xbbccdd11).unwrap())
	);
	#[cfg(target_endian = "little")]
	assert_eq!(
	checked::try_pod_read_unaligned::<NonZeroU32>(&bytes[1..5]),
	Ok(NonZeroU32::new(0x44aabbcc).unwrap())
	);

	let u32s = [0; 2];
	let bytes = bytemuck::checked::cast_slice::<u32, u8>(&u32s);

	assert_eq!(
	checked::try_pod_read_unaligned::<NonZeroU32>(&bytes[1..5]),
	Err(CheckedCastError::InvalidBitPattern)
	);
	}

	#[test]
	fn test_try_from_bytes() {
	let nonzero_u32s = [
	NonZeroU32::new(0xaabbccdd).unwrap(),
	NonZeroU32::new(0x11223344).unwrap(),
	];
	let bytes = bytemuck::checked::cast_slice::<NonZeroU32, u8>(&nonzero_u32s);
	assert_eq!(
	checked::try_from_bytes::<NonZeroU32>(&bytes[..4]),
	Ok(&nonzero_u32s[0])
	);
	assert_eq!(
	checked::try_from_bytes::<NonZeroU32>(&bytes[..5]),
	Err(CheckedCastError::PodCastError(PodCastError::SizeMismatch))
	);
	assert_eq!(
	checked::try_from_bytes::<NonZeroU32>(&bytes[..3]),
	Err(CheckedCastError::PodCastError(PodCastError::SizeMismatch))
	);
	assert_eq!(
	checked::try_from_bytes::<NonZeroU32>(&bytes[1..5]),
	Err(CheckedCastError::PodCastError(
	PodCastError::TargetAlignmentGreaterAndInputNotAligned
	))
	);

	let zero_u32s = [0, 0x11223344_u32];
	let bytes = bytemuck::checked::cast_slice::<u32, u8>(&zero_u32s);
	assert_eq!(
	checked::try_from_bytes::<NonZeroU32>(&bytes[..4]),
	Err(CheckedCastError::InvalidBitPattern)
	);
	assert_eq!(
	checked::try_from_bytes::<NonZeroU32>(&bytes[4..]),
	Ok(&NonZeroU32::new(zero_u32s[1]).unwrap())
	);
	assert_eq!(
	checked::try_from_bytes::<NonZeroU32>(&bytes[..5]),
	Err(CheckedCastError::PodCastError(PodCastError::SizeMismatch))
	);
	assert_eq!(
	checked::try_from_bytes::<NonZeroU32>(&bytes[..3]),
	Err(CheckedCastError::PodCastError(PodCastError::SizeMismatch))
	);
	assert_eq!(
	checked::try_from_bytes::<NonZeroU32>(&bytes[1..5]),
	Err(CheckedCastError::PodCastError(
	PodCastError::TargetAlignmentGreaterAndInputNotAligned
	))
	);
	}

	#[test]
	fn test_try_from_bytes_mut() {
	let a = 0xaabbccdd_u32;
	let b = 0x11223344_u32;
	let mut u32s = [a, b];
	let bytes = bytemuck::checked::cast_slice_mut::<u32, u8>(&mut u32s);
	assert_eq!(
	checked::try_from_bytes_mut::<NonZeroU32>(&mut bytes[..4]),
	Ok(&mut NonZeroU32::new(a).unwrap())
	);
	assert_eq!(
	checked::try_from_bytes_mut::<NonZeroU32>(&mut bytes[4..]),
	Ok(&mut NonZeroU32::new(b).unwrap())
	);
	assert_eq!(
	checked::try_from_bytes_mut::<NonZeroU32>(&mut bytes[..5]),
	Err(CheckedCastError::PodCastError(PodCastError::SizeMismatch))
	);
	assert_eq!(
	checked::try_from_bytes_mut::<NonZeroU32>(&mut bytes[..3]),
	Err(CheckedCastError::PodCastError(PodCastError::SizeMismatch))
	);
	assert_eq!(
	checked::try_from_bytes::<NonZeroU32>(&bytes[1..5]),
	Err(CheckedCastError::PodCastError(
	PodCastError::TargetAlignmentGreaterAndInputNotAligned
	))
	);

	let mut u32s = [0, b];
	let bytes = bytemuck::checked::cast_slice_mut::<u32, u8>(&mut u32s);
	assert_eq!(
	checked::try_from_bytes_mut::<NonZeroU32>(&mut bytes[..4]),
	Err(CheckedCastError::InvalidBitPattern)
	);
	assert_eq!(
	checked::try_from_bytes_mut::<NonZeroU32>(&mut bytes[4..]),
	Ok(&mut NonZeroU32::new(b).unwrap())
	);
	assert_eq!(
	checked::try_from_bytes_mut::<NonZeroU32>(&mut bytes[..5]),
	Err(CheckedCastError::PodCastError(PodCastError::SizeMismatch))
	);
	assert_eq!(
	checked::try_from_bytes_mut::<NonZeroU32>(&mut bytes[..3]),
	Err(CheckedCastError::PodCastError(PodCastError::SizeMismatch))
	);
	assert_eq!(
	checked::try_from_bytes::<NonZeroU32>(&bytes[1..5]),
	Err(CheckedCastError::PodCastError(
	PodCastError::TargetAlignmentGreaterAndInputNotAligned
	))
	);
	}

	#[test]
	fn test_from_bytes() {
	let abcd = 0xaabbccdd_u32;
	let aligned_bytes = bytemuck::bytes_of(&abcd);
	assert_eq!(
	checked::from_bytes::<NonZeroU32>(aligned_bytes),
	&NonZeroU32::new(abcd).unwrap()
	);
	assert!(core::ptr::eq(
	checked::from_bytes(aligned_bytes) as const NonZeroU32 as const u32,
	&abcd
	));
	}

	#[test]
	fn test_from_bytes_mut() {
	let mut a = 0xaabbccdd_u32;
	let a_addr = &a as *const _ as usize;
	let aligned_bytes = bytemuck::bytes_of_mut(&mut a);
	assert_eq!(
	*checked::from_bytes_mut::<NonZeroU32>(aligned_bytes),
	NonZeroU32::new(0xaabbccdd).unwrap()
	);
	assert_eq!(
	checked::from_bytes_mut::<NonZeroU32>(aligned_bytes) as *const NonZeroU32
	as usize,
	a_addr
	);
	}

	// like #[should_panic], but can be a part of another test, instead of requiring
	// it to be it's own test.
	macro_rules! should_panic {
	($ex:expr) => {
	assert!(
	std::panic::catch_unwind(\|\| {
	let _ = $ex;
	})
	.is_err(),
	concat!("should have panicked: `", stringify!($ex), "`")
	);
	};
	}

	#[test]
	fn test_panics() {
	should_panic!(checked::cast::<u32, NonZeroU32>(0));
	should_panic!(checked::cast_ref::<u32, NonZeroU32>(&0));
	should_panic!(checked::cast_mut::<u32, NonZeroU32>(&mut 0));
	should_panic!(checked::cast_slice::<u8, NonZeroU32>(&[1u8, 2u8]));
	should_panic!(checked::cast_slice_mut::<u8, NonZeroU32>(&mut [1u8, 2u8]));
	should_panic!(checked::from_bytes::<NonZeroU32>(&[1u8, 2]));
	should_panic!(checked::from_bytes::<NonZeroU32>(&[1u8, 2, 3, 4, 5]));
	should_panic!(checked::from_bytes_mut::<NonZeroU32>(&mut [1u8, 2]));
	should_panic!(checked::from_bytes_mut::<NonZeroU32>(&mut [1u8, 2, 3, 4, 5]));
	// use cast_slice on some u32s to get some align>=4 bytes, so we can know
	// we'll give from_bytes unaligned ones.
	let aligned_bytes = bytemuck::cast_slice::<u32, u8>(&[0, 0]);
	should_panic!(checked::from_bytes::<NonZeroU32>(aligned_bytes));
	should_panic!(checked::from_bytes::<NonZeroU32>(&aligned_bytes[1..5]));
	should_panic!(checked::pod_read_unaligned::<NonZeroU32>(
	&aligned_bytes[1..5]
	));
	}

	#[test]
	fn test_char() {
	assert_eq!(checked::try_cast::<u32, char>(0), Ok('\0'));
	assert_eq!(checked::try_cast::<u32, char>(0xd7ff), Ok('\u{d7ff}'));
	assert_eq!(
	checked::try_cast::<u32, char>(0xd800),
	Err(CheckedCastError::InvalidBitPattern)
	);
	assert_eq!(
	checked::try_cast::<u32, char>(0xdfff),
	Err(CheckedCastError::InvalidBitPattern)
	);
	assert_eq!(checked::try_cast::<u32, char>(0xe000), Ok('\u{e000}'));
	assert_eq!(checked::try_cast::<u32, char>(0x10ffff), Ok('\u{10ffff}'));
	assert_eq!(
	checked::try_cast::<u32, char>(0x110000),
	Err(CheckedCastError::InvalidBitPattern)
	);
	assert_eq!(
	checked::try_cast::<u32, char>(-1i32 as u32),
	Err(CheckedCastError::InvalidBitPattern)
	);
	}

	#[test]
	fn test_bool() {
	assert_eq!(checked::try_cast::<u8, bool>(0), Ok(false));
	assert_eq!(checked::try_cast::<u8, bool>(1), Ok(true));
	for i in 2..=255 {
	assert_eq!(
	checked::try_cast::<u8, bool>(i),
	Err(CheckedCastError::InvalidBitPattern)
	);
	}

	assert_eq!(checked::try_from_bytes::<bool>(&[1]), Ok(&true));
	assert_eq!(
	checked::try_from_bytes::<bool>(&[3]),
	Err(CheckedCastError::InvalidBitPattern)
	);
	assert_eq!(
	checked::try_from_bytes::<bool>(&[0, 1]),
	Err(CheckedCastError::PodCastError(PodCastError::SizeMismatch))
	);
	}

	#[test]
	fn test_all_nonzero() {
	use core::num::*;
	macro_rules! test_nonzero {
	($nonzero:ty: $primitive:ty) => {
	assert_eq!(
	checked::try_cast::<$primitive, $nonzero>(0),
	Err(CheckedCastError::InvalidBitPattern)
	);
	assert_eq!(
	checked::try_cast::<$primitive, $nonzero>(1),
	Ok(<$nonzero>::new(1).unwrap())
	);
	};
	}

	test_nonzero!(NonZeroU8: u8);
	test_nonzero!(NonZeroI8: i8);
	test_nonzero!(NonZeroU16: u16);
	test_nonzero!(NonZeroI16: i16);
	test_nonzero!(NonZeroU32: u32);
	test_nonzero!(NonZeroI32: i32);
	test_nonzero!(NonZeroU64: u64);
	test_nonzero!(NonZeroI64: i64);
	test_nonzero!(NonZeroU128: u128);
	test_nonzero!(NonZeroI128: i128);
	test_nonzero!(NonZeroUsize: usize);
	test_nonzero!(NonZeroIsize: isize);
	}