//@ run-pass //@ ignore-emscripten FIXME(#45351) hits an LLVM assert #![feature(repr_simd, intrinsics)] extern "rust-intrinsic" { fn simd_cast(x: T) -> U; } use std::cmp::{max, min}; #[derive(Copy, Clone)] #[repr(simd)] struct V([T; 2]); fn main() { unsafe { let u = V::([i16::MIN as u32, i16::MAX as u32]); let i: V = simd_cast(u); assert_eq!(i.0[0], u.0[0] as i16); assert_eq!(i.0[1], u.0[1] as i16); } unsafe { let f = V::([i16::MIN as f32, i16::MAX as f32]); let i: V = simd_cast(f); assert_eq!(i.0[0], f.0[0] as i16); assert_eq!(i.0[1], f.0[1] as i16); } unsafe { let f = V::([u8::MIN as f32, u8::MAX as f32]); let u: V = simd_cast(f); assert_eq!(u.0[0], f.0[0] as u8); assert_eq!(u.0[1], f.0[1] as u8); } unsafe { // We would like to do isize::MIN..=isize::MAX, but those values are not representable in // an f64, so we clamp to the range of an i32 to prevent running into UB. let f = V::([ max(isize::MIN, i32::MIN as isize) as f64, min(isize::MAX, i32::MAX as isize) as f64, ]); let i: V = simd_cast(f); assert_eq!(i.0[0], f.0[0] as isize); assert_eq!(i.0[1], f.0[1] as isize); } unsafe { let f = V::([ max(usize::MIN, u32::MIN as usize) as f64, min(usize::MAX, u32::MAX as usize) as f64, ]); let u: V = simd_cast(f); assert_eq!(u.0[0], f.0[0] as usize); assert_eq!(u.0[1], f.0[1] as usize); } }