#![feature(portable_simd, platform_intrinsics)] use std::simd::*; fn simd_ops_f32() { let a = f32x4::splat(10.0); let b = f32x4::from_array([1.0, 2.0, 3.0, -4.0]); assert_eq!(-b, f32x4::from_array([-1.0, -2.0, -3.0, 4.0])); assert_eq!(a + b, f32x4::from_array([11.0, 12.0, 13.0, 6.0])); assert_eq!(a - b, f32x4::from_array([9.0, 8.0, 7.0, 14.0])); assert_eq!(a * b, f32x4::from_array([10.0, 20.0, 30.0, -40.0])); assert_eq!(b / a, f32x4::from_array([0.1, 0.2, 0.3, -0.4])); assert_eq!(a / f32x4::splat(2.0), f32x4::splat(5.0)); assert_eq!(a % b, f32x4::from_array([0.0, 0.0, 1.0, 2.0])); assert_eq!(b.abs(), f32x4::from_array([1.0, 2.0, 3.0, 4.0])); assert_eq!(a.max(b * f32x4::splat(4.0)), f32x4::from_array([10.0, 10.0, 12.0, 10.0])); assert_eq!(a.min(b * f32x4::splat(4.0)), f32x4::from_array([4.0, 8.0, 10.0, -16.0])); assert_eq!(a.lanes_eq(f32x4::splat(5.0) * b), Mask::from_array([false, true, false, false])); assert_eq!(a.lanes_ne(f32x4::splat(5.0) * b), Mask::from_array([true, false, true, true])); assert_eq!(a.lanes_le(f32x4::splat(5.0) * b), Mask::from_array([false, true, true, false])); assert_eq!(a.lanes_lt(f32x4::splat(5.0) * b), Mask::from_array([false, false, true, false])); assert_eq!(a.lanes_ge(f32x4::splat(5.0) * b), Mask::from_array([true, true, false, true])); assert_eq!(a.lanes_gt(f32x4::splat(5.0) * b), Mask::from_array([true, false, false, true])); assert_eq!(a.horizontal_sum(), 40.0); assert_eq!(b.horizontal_sum(), 2.0); assert_eq!(a.horizontal_product(), 100.0 * 100.0); assert_eq!(b.horizontal_product(), -24.0); assert_eq!(a.horizontal_max(), 10.0); assert_eq!(b.horizontal_max(), 3.0); assert_eq!(a.horizontal_min(), 10.0); assert_eq!(b.horizontal_min(), -4.0); assert_eq!( f32x2::from_array([0.0, f32::NAN]).max(f32x2::from_array([f32::NAN, 0.0])), f32x2::from_array([0.0, 0.0]) ); assert_eq!(f32x2::from_array([0.0, f32::NAN]).horizontal_max(), 0.0); assert_eq!(f32x2::from_array([f32::NAN, 0.0]).horizontal_max(), 0.0); assert_eq!( f32x2::from_array([0.0, f32::NAN]).min(f32x2::from_array([f32::NAN, 0.0])), f32x2::from_array([0.0, 0.0]) ); assert_eq!(f32x2::from_array([0.0, f32::NAN]).horizontal_min(), 0.0); assert_eq!(f32x2::from_array([f32::NAN, 0.0]).horizontal_min(), 0.0); } fn simd_ops_f64() { let a = f64x4::splat(10.0); let b = f64x4::from_array([1.0, 2.0, 3.0, -4.0]); assert_eq!(-b, f64x4::from_array([-1.0, -2.0, -3.0, 4.0])); assert_eq!(a + b, f64x4::from_array([11.0, 12.0, 13.0, 6.0])); assert_eq!(a - b, f64x4::from_array([9.0, 8.0, 7.0, 14.0])); assert_eq!(a * b, f64x4::from_array([10.0, 20.0, 30.0, -40.0])); assert_eq!(b / a, f64x4::from_array([0.1, 0.2, 0.3, -0.4])); assert_eq!(a / f64x4::splat(2.0), f64x4::splat(5.0)); assert_eq!(a % b, f64x4::from_array([0.0, 0.0, 1.0, 2.0])); assert_eq!(b.abs(), f64x4::from_array([1.0, 2.0, 3.0, 4.0])); assert_eq!(a.max(b * f64x4::splat(4.0)), f64x4::from_array([10.0, 10.0, 12.0, 10.0])); assert_eq!(a.min(b * f64x4::splat(4.0)), f64x4::from_array([4.0, 8.0, 10.0, -16.0])); assert_eq!(a.lanes_eq(f64x4::splat(5.0) * b), Mask::from_array([false, true, false, false])); assert_eq!(a.lanes_ne(f64x4::splat(5.0) * b), Mask::from_array([true, false, true, true])); assert_eq!(a.lanes_le(f64x4::splat(5.0) * b), Mask::from_array([false, true, true, false])); assert_eq!(a.lanes_lt(f64x4::splat(5.0) * b), Mask::from_array([false, false, true, false])); assert_eq!(a.lanes_ge(f64x4::splat(5.0) * b), Mask::from_array([true, true, false, true])); assert_eq!(a.lanes_gt(f64x4::splat(5.0) * b), Mask::from_array([true, false, false, true])); assert_eq!(a.horizontal_sum(), 40.0); assert_eq!(b.horizontal_sum(), 2.0); assert_eq!(a.horizontal_product(), 100.0 * 100.0); assert_eq!(b.horizontal_product(), -24.0); assert_eq!(a.horizontal_max(), 10.0); assert_eq!(b.horizontal_max(), 3.0); assert_eq!(a.horizontal_min(), 10.0); assert_eq!(b.horizontal_min(), -4.0); assert_eq!( f64x2::from_array([0.0, f64::NAN]).max(f64x2::from_array([f64::NAN, 0.0])), f64x2::from_array([0.0, 0.0]) ); assert_eq!(f64x2::from_array([0.0, f64::NAN]).horizontal_max(), 0.0); assert_eq!(f64x2::from_array([f64::NAN, 0.0]).horizontal_max(), 0.0); assert_eq!( f64x2::from_array([0.0, f64::NAN]).min(f64x2::from_array([f64::NAN, 0.0])), f64x2::from_array([0.0, 0.0]) ); assert_eq!(f64x2::from_array([0.0, f64::NAN]).horizontal_min(), 0.0); assert_eq!(f64x2::from_array([f64::NAN, 0.0]).horizontal_min(), 0.0); } fn simd_ops_i32() { let a = i32x4::splat(10); let b = i32x4::from_array([1, 2, 3, -4]); assert_eq!(-b, i32x4::from_array([-1, -2, -3, 4])); assert_eq!(a + b, i32x4::from_array([11, 12, 13, 6])); assert_eq!(a - b, i32x4::from_array([9, 8, 7, 14])); assert_eq!(a * b, i32x4::from_array([10, 20, 30, -40])); assert_eq!(a / b, i32x4::from_array([10, 5, 3, -2])); assert_eq!(a / i32x4::splat(2), i32x4::splat(5)); assert_eq!(i32x2::splat(i32::MIN) / i32x2::splat(-1), i32x2::splat(i32::MIN)); assert_eq!(a % b, i32x4::from_array([0, 0, 1, 2])); assert_eq!(i32x2::splat(i32::MIN) % i32x2::splat(-1), i32x2::splat(0)); assert_eq!(b.abs(), i32x4::from_array([1, 2, 3, 4])); // FIXME not a per-lane method (https://github.com/rust-lang/portable-simd/issues/247) // assert_eq!(a.max(b * i32x4::splat(4)), i32x4::from_array([10, 10, 12, 10])); // assert_eq!(a.min(b * i32x4::splat(4)), i32x4::from_array([4, 8, 10, -16])); assert_eq!( i8x4::from_array([i8::MAX, -23, 23, i8::MIN]).saturating_add(i8x4::from_array([1, i8::MIN, i8::MAX, 28])), i8x4::from_array([i8::MAX, i8::MIN, i8::MAX, -100]) ); assert_eq!( i8x4::from_array([i8::MAX, -28, 27, 42]).saturating_sub(i8x4::from_array([1, i8::MAX, i8::MAX, -80])), i8x4::from_array([126, i8::MIN, -100, 122]) ); assert_eq!( u8x4::from_array([u8::MAX, 0, 23, 42]).saturating_add(u8x4::from_array([1, 1, u8::MAX, 200])), u8x4::from_array([u8::MAX, 1, u8::MAX, 242]) ); assert_eq!( u8x4::from_array([u8::MAX, 0, 23, 42]).saturating_sub(u8x4::from_array([1, 1, u8::MAX, 200])), u8x4::from_array([254, 0, 0, 0]) ); assert_eq!(!b, i32x4::from_array([!1, !2, !3, !-4])); assert_eq!(b << i32x4::splat(2), i32x4::from_array([4, 8, 12, -16])); assert_eq!(b >> i32x4::splat(1), i32x4::from_array([0, 1, 1, -2])); assert_eq!(b & i32x4::splat(2), i32x4::from_array([0, 2, 2, 0])); assert_eq!(b | i32x4::splat(2), i32x4::from_array([3, 2, 3, -2])); assert_eq!(b ^ i32x4::splat(2), i32x4::from_array([3, 0, 1, -2])); assert_eq!(a.lanes_eq(i32x4::splat(5) * b), Mask::from_array([false, true, false, false])); assert_eq!(a.lanes_ne(i32x4::splat(5) * b), Mask::from_array([true, false, true, true])); assert_eq!(a.lanes_le(i32x4::splat(5) * b), Mask::from_array([false, true, true, false])); assert_eq!(a.lanes_lt(i32x4::splat(5) * b), Mask::from_array([false, false, true, false])); assert_eq!(a.lanes_ge(i32x4::splat(5) * b), Mask::from_array([true, true, false, true])); assert_eq!(a.lanes_gt(i32x4::splat(5) * b), Mask::from_array([true, false, false, true])); assert_eq!(a.horizontal_sum(), 40); assert_eq!(b.horizontal_sum(), 2); assert_eq!(a.horizontal_product(), 100 * 100); assert_eq!(b.horizontal_product(), -24); assert_eq!(a.horizontal_max(), 10); assert_eq!(b.horizontal_max(), 3); assert_eq!(a.horizontal_min(), 10); assert_eq!(b.horizontal_min(), -4); assert_eq!(a.horizontal_and(), 10); assert_eq!(b.horizontal_and(), 0); assert_eq!(a.horizontal_or(), 10); assert_eq!(b.horizontal_or(), -1); assert_eq!(a.horizontal_xor(), 0); assert_eq!(b.horizontal_xor(), -4); } fn simd_mask() { let intmask = Mask::from_int(i32x4::from_array([0, -1, 0, 0])); assert_eq!(intmask, Mask::from_array([false, true, false, false])); assert_eq!(intmask.to_array(), [false, true, false, false]); } fn simd_cast() { // between integer types assert_eq!(i32x4::from_array([1, 2, 3, -4]), i16x4::from_array([1, 2, 3, -4]).cast()); assert_eq!(i16x4::from_array([1, 2, 3, -4]), i32x4::from_array([1, 2, 3, -4]).cast()); assert_eq!(i32x4::from_array([1, -1, 3, 4]), u64x4::from_array([1, u64::MAX, 3, 4]).cast()); // float -> int assert_eq!( i8x4::from_array([127, -128, 127, -128]), f32x4::from_array([127.99, -128.99, 999.0, -999.0]).cast() ); assert_eq!( i32x4::from_array([0, 1, -1, 2147483520]), f32x4::from_array([ -0.0, /*0x1.19999ap+0*/ f32::from_bits(0x3f8ccccd), /*-0x1.19999ap+0*/ f32::from_bits(0xbf8ccccd), 2147483520.0 ]) .cast() ); assert_eq!( i32x8::from_array([i32::MAX, i32::MIN, i32::MAX, i32::MIN, i32::MAX, i32::MIN, 0, 0]), f32x8::from_array([ 2147483648.0f32, -2147483904.0f32, f32::MAX, f32::MIN, f32::INFINITY, f32::NEG_INFINITY, f32::NAN, -f32::NAN, ]) .cast() ); // int -> float assert_eq!( f32x4::from_array([ -2147483648.0, /*0x1.26580cp+30*/ f32::from_bits(0x4e932c06), 16777220.0, -16777220.0, ]), i32x4::from_array([-2147483647i32, 1234567890i32, 16777219i32, -16777219i32]).cast() ); // float -> float assert_eq!( f32x4::from_array([f32::INFINITY, f32::INFINITY, f32::NEG_INFINITY, f32::NEG_INFINITY]), f64x4::from_array([f64::MAX, f64::INFINITY, f64::MIN, f64::NEG_INFINITY]).cast() ); // unchecked casts unsafe { assert_eq!( i32x4::from_array([0, 1, -1, 2147483520]), f32x4::from_array([ -0.0, /*0x1.19999ap+0*/ f32::from_bits(0x3f8ccccd), /*-0x1.19999ap+0*/ f32::from_bits(0xbf8ccccd), 2147483520.0 ]) .to_int_unchecked() ); assert_eq!( u64x4::from_array([0, 10000000000000000, u64::MAX - 2047, 9223372036854775808]), f64x4::from_array([ -0.99999999999, 1e16, (u64::MAX - 1024) as f64, 9223372036854775808.0 ]) .to_int_unchecked() ); } } fn simd_intrinsics() { extern "platform-intrinsic" { fn simd_eq(x: T, y: T) -> U; fn simd_reduce_any(x: T) -> bool; fn simd_reduce_all(x: T) -> bool; fn simd_select(m: M, yes: T, no: T) -> T; } unsafe { // Make sure simd_eq returns all-1 for `true` let a = i32x4::splat(10); let b = i32x4::from_array([1, 2, 10, 4]); let c: i32x4 = simd_eq(a, b); assert_eq!(c, i32x4::from_array([0, 0, -1, 0])); assert!(!simd_reduce_any(i32x4::splat(0))); assert!(simd_reduce_any(i32x4::splat(-1))); assert!(simd_reduce_any(i32x2::from_array([0, -1]))); assert!(!simd_reduce_all(i32x4::splat(0))); assert!(simd_reduce_all(i32x4::splat(-1))); assert!(!simd_reduce_all(i32x2::from_array([0, -1]))); assert_eq!( simd_select(i8x4::from_array([0, -1, -1, 0]), a, b), i32x4::from_array([1, 10, 10, 4]) ); assert_eq!( simd_select(i8x4::from_array([0, -1, -1, 0]), b, a), i32x4::from_array([10, 2, 10, 10]) ); } } fn main() { simd_mask(); simd_ops_f32(); simd_ops_f64(); simd_ops_i32(); simd_cast(); simd_intrinsics(); }