use bytemuck::{offset_of, Zeroable}; #[test] fn test_offset_of_vertex() { #[repr(C)] struct Vertex { pos: [f32; 2], uv: [u16; 2], color: [u8; 4], } unsafe impl Zeroable for Vertex {} let pos = offset_of!(Zeroable::zeroed(), Vertex, pos); let uv = offset_of!(Zeroable::zeroed(), Vertex, uv); let color = offset_of!(Zeroable::zeroed(), Vertex, color); assert_eq!(pos, 0); assert_eq!(uv, 8); assert_eq!(color, 12); } #[test] fn test_offset_of_foo() { #[derive(Default)] struct Foo { a: u8, b: &'static str, c: i32, } let a_offset = offset_of!(Default::default(), Foo, a); let b_offset = offset_of!(Default::default(), Foo, b); let c_offset = offset_of!(Default::default(), Foo, c); assert_ne!(a_offset, b_offset); assert_ne!(b_offset, c_offset); // We can't check against hardcoded values for a repr(Rust) type, // but prove to ourself this way. let foo = Foo::default(); // Note: offsets are in bytes. let as_bytes = &foo as *const _ as *const u8; // we're using wrapping_offset here because it's not worth // the unsafe block, but it would be valid to use `add` instead, // as it cannot overflow. assert_eq!( &foo.a as *const _ as usize, as_bytes.wrapping_add(a_offset) as usize ); assert_eq!( &foo.b as *const _ as usize, as_bytes.wrapping_add(b_offset) as usize ); assert_eq!( &foo.c as *const _ as usize, as_bytes.wrapping_add(c_offset) as usize ); }