#![allow(clippy::unnecessary_cast)] #![allow(clippy::manual_slice_size_calculation)] use core::mem::size_of; use bytemuck::*; #[test] fn test_try_cast_slice() { // some align4 data let u32_slice: &[u32] = &[4, 5, 6]; // the same data as align1 let the_bytes: &[u8] = try_cast_slice(u32_slice).unwrap(); assert_eq!( u32_slice.as_ptr() as *const u32 as usize, the_bytes.as_ptr() as *const u8 as usize ); assert_eq!( u32_slice.len() * size_of::(), the_bytes.len() * size_of::() ); // by taking one byte off the front, we're definitely mis-aligned for u32. let mis_aligned_bytes = &the_bytes[1..]; assert_eq!( try_cast_slice::(mis_aligned_bytes), Err(PodCastError::TargetAlignmentGreaterAndInputNotAligned) ); // by taking one byte off the end, we're aligned but would have slop bytes for // u32 let the_bytes_len_minus1 = the_bytes.len() - 1; let slop_bytes = &the_bytes[..the_bytes_len_minus1]; assert_eq!( try_cast_slice::(slop_bytes), Err(PodCastError::OutputSliceWouldHaveSlop) ); // if we don't mess with it we can up-alignment cast try_cast_slice::(the_bytes).unwrap(); } #[test] fn test_try_cast_slice_mut() { // some align4 data let u32_slice: &mut [u32] = &mut [4, 5, 6]; let u32_len = u32_slice.len(); let u32_ptr = u32_slice.as_ptr(); // the same data as align1 let the_bytes: &mut [u8] = 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::(), the_bytes_len * size_of::()); // by taking one byte off the front, we're definitely mis-aligned for u32. let mis_aligned_bytes = &mut the_bytes[1..]; assert_eq!( try_cast_slice_mut::(mis_aligned_bytes), Err(PodCastError::TargetAlignmentGreaterAndInputNotAligned) ); // by taking one byte off the end, we're aligned but would have slop bytes for // u32 let the_bytes_len_minus1 = the_bytes.len() - 1; let slop_bytes = &mut the_bytes[..the_bytes_len_minus1]; assert_eq!( try_cast_slice_mut::(slop_bytes), Err(PodCastError::OutputSliceWouldHaveSlop) ); // if we don't mess with it we can up-alignment cast try_cast_slice_mut::(the_bytes).unwrap(); } #[test] fn test_types() { let _: i32 = cast(1.0_f32); let _: &mut i32 = cast_mut(&mut 1.0_f32); let _: &i32 = cast_ref(&1.0_f32); let _: &[i32] = cast_slice(&[1.0_f32]); let _: &mut [i32] = cast_slice_mut(&mut [1.0_f32]); // let _: Result = try_cast(1.0_f32); let _: Result<&mut i32, PodCastError> = try_cast_mut(&mut 1.0_f32); let _: Result<&i32, PodCastError> = try_cast_ref(&1.0_f32); let _: Result<&[i32], PodCastError> = try_cast_slice(&[1.0_f32]); let _: Result<&mut [i32], PodCastError> = try_cast_slice_mut(&mut [1.0_f32]); } #[test] fn test_bytes_of() { assert_eq!(bytes_of(&0xaabbccdd_u32), &0xaabbccdd_u32.to_ne_bytes()); assert_eq!( bytes_of_mut(&mut 0xaabbccdd_u32), &mut 0xaabbccdd_u32.to_ne_bytes() ); let mut a = 0xaabbccdd_u32; let a_addr = &a as *const _ as usize; // ensure addresses match. assert_eq!(bytes_of(&a).as_ptr() as usize, a_addr); assert_eq!(bytes_of_mut(&mut a).as_ptr() as usize, a_addr); } #[test] fn test_try_from_bytes() { let u32s = [0xaabbccdd, 0x11223344_u32]; let bytes = bytemuck::cast_slice::(&u32s); assert_eq!(try_from_bytes::(&bytes[..4]), Ok(&u32s[0])); assert_eq!( try_from_bytes::(&bytes[..5]), Err(PodCastError::SizeMismatch) ); assert_eq!( try_from_bytes::(&bytes[..3]), Err(PodCastError::SizeMismatch) ); assert_eq!( try_from_bytes::(&bytes[1..5]), Err(PodCastError::TargetAlignmentGreaterAndInputNotAligned) ); } #[test] fn test_try_from_bytes_mut() { let mut abcd = 0xaabbccdd; let mut u32s = [abcd, 0x11223344_u32]; let bytes = bytemuck::cast_slice_mut::(&mut u32s); assert_eq!(try_from_bytes_mut::(&mut bytes[..4]), Ok(&mut abcd)); assert_eq!(try_from_bytes_mut::(&mut bytes[..4]), Ok(&mut abcd)); assert_eq!( try_from_bytes_mut::(&mut bytes[..5]), Err(PodCastError::SizeMismatch) ); assert_eq!( try_from_bytes_mut::(&mut bytes[..3]), Err(PodCastError::SizeMismatch) ); assert_eq!( try_from_bytes::(&bytes[1..5]), Err(PodCastError::TargetAlignmentGreaterAndInputNotAligned) ); } #[test] fn test_from_bytes() { let abcd = 0xaabbccdd_u32; let aligned_bytes = bytemuck::bytes_of(&abcd); assert_eq!(from_bytes::(aligned_bytes), &abcd); assert!(core::ptr::eq(from_bytes(aligned_bytes), &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!(*from_bytes_mut::(aligned_bytes), 0xaabbccdd_u32); assert_eq!( from_bytes_mut::(aligned_bytes) as *const u32 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!(cast_slice::(&[1u8, 2u8])); should_panic!(cast_slice_mut::(&mut [1u8, 2u8])); should_panic!(from_bytes::(&[1u8, 2])); should_panic!(from_bytes::(&[1u8, 2, 3, 4, 5])); should_panic!(from_bytes_mut::(&mut [1u8, 2])); should_panic!(from_bytes_mut::(&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::(&[0, 0]); should_panic!(from_bytes::(&aligned_bytes[1..5])); } #[cfg(feature = "extern_crate_alloc")] #[test] fn test_boxed_slices() { let boxed_u8_slice: Box<[u8]> = Box::new([0, 1, u8::MAX, i8::MAX as u8]); let boxed_i8_slice: Box<[i8]> = cast_slice_box::(boxed_u8_slice); assert_eq!(&*boxed_i8_slice, [0, 1, -1, i8::MAX]); let result: Result, (PodCastError, Box<[i8]>)> = try_cast_slice_box(boxed_i8_slice); let (error, boxed_i8_slice) = result.expect_err("u16 and i8 have different alignment"); assert_eq!(error, PodCastError::AlignmentMismatch); // FIXME(#253): Should these next two casts' errors be consistent? let result: Result<&[[i8; 3]], PodCastError> = try_cast_slice(&*boxed_i8_slice); let error = result.expect_err("slice of [i8; 3] cannot be made from slice of 4 i8s"); assert_eq!(error, PodCastError::OutputSliceWouldHaveSlop); let result: Result, (PodCastError, Box<[i8]>)> = try_cast_slice_box(boxed_i8_slice); let (error, boxed_i8_slice) = result.expect_err("slice of [i8; 3] cannot be made from slice of 4 i8s"); assert_eq!(error, PodCastError::SizeMismatch); let empty: Box<[()]> = cast_slice_box::(Box::new([])); assert!(empty.is_empty()); let result: Result, (PodCastError, Box<[i8]>)> = try_cast_slice_box(boxed_i8_slice); let (error, boxed_i8_slice) = result.expect_err("slice of ZST cannot be made from slice of 4 u8s"); assert_eq!(error, PodCastError::SizeMismatch); drop(boxed_i8_slice); let empty: Box<[i8]> = cast_slice_box::<(), i8>(Box::new([])); assert!(empty.is_empty()); let empty: Box<[i8]> = cast_slice_box::<(), i8>(Box::new([(); 42])); assert!(empty.is_empty()); } #[cfg(feature = "extern_crate_alloc")] #[test] fn test_rc_slices() { use std::rc::Rc; let rc_u8_slice: Rc<[u8]> = Rc::new([0, 1, u8::MAX, i8::MAX as u8]); let rc_i8_slice: Rc<[i8]> = cast_slice_rc::(rc_u8_slice); assert_eq!(&*rc_i8_slice, [0, 1, -1, i8::MAX]); let result: Result, (PodCastError, Rc<[i8]>)> = try_cast_slice_rc(rc_i8_slice); let (error, rc_i8_slice) = result.expect_err("u16 and i8 have different alignment"); assert_eq!(error, PodCastError::AlignmentMismatch); // FIXME(#253): Should these next two casts' errors be consistent? let result: Result<&[[i8; 3]], PodCastError> = try_cast_slice(&*rc_i8_slice); let error = result.expect_err("slice of [i8; 3] cannot be made from slice of 4 i8s"); assert_eq!(error, PodCastError::OutputSliceWouldHaveSlop); let result: Result, (PodCastError, Rc<[i8]>)> = try_cast_slice_rc(rc_i8_slice); let (error, rc_i8_slice) = result.expect_err("slice of [i8; 3] cannot be made from slice of 4 i8s"); assert_eq!(error, PodCastError::SizeMismatch); let empty: Rc<[()]> = cast_slice_rc::(Rc::new([])); assert!(empty.is_empty()); let result: Result, (PodCastError, Rc<[i8]>)> = try_cast_slice_rc(rc_i8_slice); let (error, rc_i8_slice) = result.expect_err("slice of ZST cannot be made from slice of 4 u8s"); assert_eq!(error, PodCastError::SizeMismatch); drop(rc_i8_slice); let empty: Rc<[i8]> = cast_slice_rc::<(), i8>(Rc::new([])); assert!(empty.is_empty()); let empty: Rc<[i8]> = cast_slice_rc::<(), i8>(Rc::new([(); 42])); assert!(empty.is_empty()); } #[cfg(feature = "extern_crate_alloc")] #[cfg(target_has_atomic = "ptr")] #[test] fn test_arc_slices() { use std::sync::Arc; let arc_u8_slice: Arc<[u8]> = Arc::new([0, 1, u8::MAX, i8::MAX as u8]); let arc_i8_slice: Arc<[i8]> = cast_slice_arc::(arc_u8_slice); assert_eq!(&*arc_i8_slice, [0, 1, -1, i8::MAX]); let result: Result, (PodCastError, Arc<[i8]>)> = try_cast_slice_arc(arc_i8_slice); let (error, arc_i8_slice) = result.expect_err("u16 and i8 have different alignment"); assert_eq!(error, PodCastError::AlignmentMismatch); // FIXME(#253): Should these next two casts' errors be consistent? let result: Result<&[[i8; 3]], PodCastError> = try_cast_slice(&*arc_i8_slice); let error = result.expect_err("slice of [i8; 3] cannot be made from slice of 4 i8s"); assert_eq!(error, PodCastError::OutputSliceWouldHaveSlop); let result: Result, (PodCastError, Arc<[i8]>)> = try_cast_slice_arc(arc_i8_slice); let (error, arc_i8_slice) = result.expect_err("slice of [i8; 3] cannot be made from slice of 4 i8s"); assert_eq!(error, PodCastError::SizeMismatch); let empty: Arc<[()]> = cast_slice_arc::(Arc::new([])); assert!(empty.is_empty()); let result: Result, (PodCastError, Arc<[i8]>)> = try_cast_slice_arc(arc_i8_slice); let (error, arc_i8_slice) = result.expect_err("slice of ZST cannot be made from slice of 4 u8s"); assert_eq!(error, PodCastError::SizeMismatch); drop(arc_i8_slice); let empty: Arc<[i8]> = cast_slice_arc::<(), i8>(Arc::new([])); assert!(empty.is_empty()); let empty: Arc<[i8]> = cast_slice_arc::<(), i8>(Arc::new([(); 42])); assert!(empty.is_empty()); } #[cfg(feature = "extern_crate_alloc")] #[test] fn box_bytes_zst() { let x: BoxBytes = box_bytes_of(Box::new([0u8; 0])); let _: Box<[u8]> = from_box_bytes(x); let x: BoxBytes = box_bytes_of(Box::new([0u8; 0])); let res: Result, _> = try_from_box_bytes(x); assert_eq!(res.unwrap_err().0, PodCastError::SizeMismatch); let x: BoxBytes = box_bytes_of(Box::new([(); 0])); let _: Box<[u8]> = from_box_bytes(x); }