src/test/ui/simd/simd-intrinsic-generic-reduction.rs - third_party/rust - Git at Google

 // run-pass
 #![allow(non_camel_case_types)]

 // ignore-emscripten
 // min-system-llvm-version: 9.0

 // Test that the simd_reduce_{op} intrinsics produce the correct results.

 #![feature(repr_simd, platform_intrinsics)]
 #[allow(non_camel_case_types)]

 #[repr(simd)]
 #[derive(Copy, Clone)]
 struct i32x4(pub i32, pub i32, pub i32, pub i32);

 #[repr(simd)]
 #[derive(Copy, Clone)]
 struct u32x4(pub u32, pub u32, pub u32, pub u32);

 #[repr(simd)]
 #[derive(Copy, Clone)]
 struct f32x4(pub f32, pub f32, pub f32, pub f32);

 #[repr(simd)]
 #[derive(Copy, Clone)]
 struct b8x4(pub i8, pub i8, pub i8, pub i8);

 #[repr(simd)]
 #[derive(Copy, Clone)]
 struct b8x16(
     pub i8, pub i8, pub i8, pub i8,
     pub i8, pub i8, pub i8, pub i8,
     pub i8, pub i8, pub i8, pub i8,
     pub i8, pub i8, pub i8, pub i8
 );

 extern "platform-intrinsic" {
     fn simd_reduce_add_unordered<T, U>(x: T) -> U;
     fn simd_reduce_mul_unordered<T, U>(x: T) -> U;
     fn simd_reduce_add_ordered<T, U>(x: T, acc: U) -> U;
     fn simd_reduce_mul_ordered<T, U>(x: T, acc: U) -> U;
     fn simd_reduce_min<T, U>(x: T) -> U;
     fn simd_reduce_max<T, U>(x: T) -> U;
     fn simd_reduce_min_nanless<T, U>(x: T) -> U;
     fn simd_reduce_max_nanless<T, U>(x: T) -> U;
     fn simd_reduce_and<T, U>(x: T) -> U;
     fn simd_reduce_or<T, U>(x: T) -> U;
     fn simd_reduce_xor<T, U>(x: T) -> U;
     fn simd_reduce_all<T>(x: T) -> bool;
     fn simd_reduce_any<T>(x: T) -> bool;
 }

 fn main() {
     unsafe {
         let x = i32x4(1, -2, 3, 4);
         let r: i32 = simd_reduce_add_unordered(x);
         assert_eq!(r, 6_i32);
         let r: i32 = simd_reduce_mul_unordered(x);
         assert_eq!(r, -24_i32);
         let r: i32 = simd_reduce_add_ordered(x, -1);
         assert_eq!(r, 5_i32);
         let r: i32 = simd_reduce_mul_ordered(x, -1);
         assert_eq!(r, 24_i32);

         let r: i32 = simd_reduce_min(x);
         assert_eq!(r, -2_i32);
         let r: i32 = simd_reduce_max(x);
         assert_eq!(r, 4_i32);

         let x = i32x4(-1, -1, -1, -1);
         let r: i32 = simd_reduce_and(x);
         assert_eq!(r, -1_i32);
         let r: i32 = simd_reduce_or(x);
         assert_eq!(r, -1_i32);
         let r: i32 = simd_reduce_xor(x);
         assert_eq!(r, 0_i32);

         let x = i32x4(-1, -1, 0, -1);
         let r: i32 = simd_reduce_and(x);
         assert_eq!(r, 0_i32);
         let r: i32 = simd_reduce_or(x);
         assert_eq!(r, -1_i32);
         let r: i32 = simd_reduce_xor(x);
         assert_eq!(r, -1_i32);
     }

     unsafe {
         let x = u32x4(1, 2, 3, 4);
         let r: u32 = simd_reduce_add_unordered(x);
         assert_eq!(r, 10_u32);
         let r: u32 = simd_reduce_mul_unordered(x);
         assert_eq!(r, 24_u32);
         let r: u32 = simd_reduce_add_ordered(x, 1);
         assert_eq!(r, 11_u32);
         let r: u32 = simd_reduce_mul_ordered(x, 2);
         assert_eq!(r, 48_u32);

         let r: u32 = simd_reduce_min(x);
         assert_eq!(r, 1_u32);
         let r: u32 = simd_reduce_max(x);
         assert_eq!(r, 4_u32);

         let t = u32::max_value();
         let x = u32x4(t, t, t, t);
         let r: u32 = simd_reduce_and(x);
         assert_eq!(r, t);
         let r: u32 = simd_reduce_or(x);
         assert_eq!(r, t);
         let r: u32 = simd_reduce_xor(x);
         assert_eq!(r, 0_u32);

         let x = u32x4(t, t, 0, t);
         let r: u32 = simd_reduce_and(x);
         assert_eq!(r, 0_u32);
         let r: u32 = simd_reduce_or(x);
         assert_eq!(r, t);
         let r: u32 = simd_reduce_xor(x);
         assert_eq!(r, t);
     }

     unsafe {
         let x = f32x4(1., -2., 3., 4.);
         let r: f32 = simd_reduce_add_unordered(x);
         assert_eq!(r, 6_f32);
         let r: f32 = simd_reduce_mul_unordered(x);
         assert_eq!(r, -24_f32);
         let r: f32 = simd_reduce_add_ordered(x, 0.);
         assert_eq!(r, 6_f32);
         let r: f32 = simd_reduce_mul_ordered(x, 1.);
         assert_eq!(r, -24_f32);
         let r: f32 = simd_reduce_add_ordered(x, 1.);
         assert_eq!(r, 7_f32);
         let r: f32 = simd_reduce_mul_ordered(x, 2.);
         assert_eq!(r, -48_f32);

         let r: f32 = simd_reduce_min(x);
         assert_eq!(r, -2_f32);
         let r: f32 = simd_reduce_max(x);
         assert_eq!(r, 4_f32);
         let r: f32 = simd_reduce_min_nanless(x);
         assert_eq!(r, -2_f32);
         let r: f32 = simd_reduce_max_nanless(x);
         assert_eq!(r, 4_f32);
     }

     unsafe {
         let x = b8x4(!0, !0, !0, !0);
         let r: bool = simd_reduce_all(x);
         assert_eq!(r, true);
         let r: bool = simd_reduce_any(x);
         assert_eq!(r, true);

         let x = b8x4(!0, !0, 0, !0);
         let r: bool = simd_reduce_all(x);
         assert_eq!(r, false);
         let r: bool = simd_reduce_any(x);
         assert_eq!(r, true);

         let x = b8x4(0, 0, 0, 0);
         let r: bool = simd_reduce_all(x);
         assert_eq!(r, false);
         let r: bool = simd_reduce_any(x);
         assert_eq!(r, false);
     }
 }
	// run-pass
	#![allow(non_camel_case_types)]

	// ignore-emscripten
	// min-system-llvm-version: 9.0

	// Test that the simd_reduce_{op} intrinsics produce the correct results.

	#![feature(repr_simd, platform_intrinsics)]
	#[allow(non_camel_case_types)]

	#[repr(simd)]
	#[derive(Copy, Clone)]
	struct i32x4(pub i32, pub i32, pub i32, pub i32);

	#[repr(simd)]
	#[derive(Copy, Clone)]
	struct u32x4(pub u32, pub u32, pub u32, pub u32);

	#[repr(simd)]
	#[derive(Copy, Clone)]
	struct f32x4(pub f32, pub f32, pub f32, pub f32);

	#[repr(simd)]
	#[derive(Copy, Clone)]
	struct b8x4(pub i8, pub i8, pub i8, pub i8);

	#[repr(simd)]
	#[derive(Copy, Clone)]
	struct b8x16(
	pub i8, pub i8, pub i8, pub i8,
	pub i8, pub i8, pub i8, pub i8,
	pub i8, pub i8, pub i8, pub i8,
	pub i8, pub i8, pub i8, pub i8
	);

	extern "platform-intrinsic" {
	fn simd_reduce_add_unordered<T, U>(x: T) -> U;
	fn simd_reduce_mul_unordered<T, U>(x: T) -> U;
	fn simd_reduce_add_ordered<T, U>(x: T, acc: U) -> U;
	fn simd_reduce_mul_ordered<T, U>(x: T, acc: U) -> U;
	fn simd_reduce_min<T, U>(x: T) -> U;
	fn simd_reduce_max<T, U>(x: T) -> U;
	fn simd_reduce_min_nanless<T, U>(x: T) -> U;
	fn simd_reduce_max_nanless<T, U>(x: T) -> U;
	fn simd_reduce_and<T, U>(x: T) -> U;
	fn simd_reduce_or<T, U>(x: T) -> U;
	fn simd_reduce_xor<T, U>(x: T) -> U;
	fn simd_reduce_all<T>(x: T) -> bool;
	fn simd_reduce_any<T>(x: T) -> bool;
	}

	fn main() {
	unsafe {
	let x = i32x4(1, -2, 3, 4);
	let r: i32 = simd_reduce_add_unordered(x);
	assert_eq!(r, 6_i32);
	let r: i32 = simd_reduce_mul_unordered(x);
	assert_eq!(r, -24_i32);
	let r: i32 = simd_reduce_add_ordered(x, -1);
	assert_eq!(r, 5_i32);
	let r: i32 = simd_reduce_mul_ordered(x, -1);
	assert_eq!(r, 24_i32);

	let r: i32 = simd_reduce_min(x);
	assert_eq!(r, -2_i32);
	let r: i32 = simd_reduce_max(x);
	assert_eq!(r, 4_i32);

	let x = i32x4(-1, -1, -1, -1);
	let r: i32 = simd_reduce_and(x);
	assert_eq!(r, -1_i32);
	let r: i32 = simd_reduce_or(x);
	assert_eq!(r, -1_i32);
	let r: i32 = simd_reduce_xor(x);
	assert_eq!(r, 0_i32);

	let x = i32x4(-1, -1, 0, -1);
	let r: i32 = simd_reduce_and(x);
	assert_eq!(r, 0_i32);
	let r: i32 = simd_reduce_or(x);
	assert_eq!(r, -1_i32);
	let r: i32 = simd_reduce_xor(x);
	assert_eq!(r, -1_i32);
	}

	unsafe {
	let x = u32x4(1, 2, 3, 4);
	let r: u32 = simd_reduce_add_unordered(x);
	assert_eq!(r, 10_u32);
	let r: u32 = simd_reduce_mul_unordered(x);
	assert_eq!(r, 24_u32);
	let r: u32 = simd_reduce_add_ordered(x, 1);
	assert_eq!(r, 11_u32);
	let r: u32 = simd_reduce_mul_ordered(x, 2);
	assert_eq!(r, 48_u32);

	let r: u32 = simd_reduce_min(x);
	assert_eq!(r, 1_u32);
	let r: u32 = simd_reduce_max(x);
	assert_eq!(r, 4_u32);

	let t = u32::max_value();
	let x = u32x4(t, t, t, t);
	let r: u32 = simd_reduce_and(x);
	assert_eq!(r, t);
	let r: u32 = simd_reduce_or(x);
	assert_eq!(r, t);
	let r: u32 = simd_reduce_xor(x);
	assert_eq!(r, 0_u32);

	let x = u32x4(t, t, 0, t);
	let r: u32 = simd_reduce_and(x);
	assert_eq!(r, 0_u32);
	let r: u32 = simd_reduce_or(x);
	assert_eq!(r, t);
	let r: u32 = simd_reduce_xor(x);
	assert_eq!(r, t);
	}

	unsafe {
	let x = f32x4(1., -2., 3., 4.);
	let r: f32 = simd_reduce_add_unordered(x);
	assert_eq!(r, 6_f32);
	let r: f32 = simd_reduce_mul_unordered(x);
	assert_eq!(r, -24_f32);
	let r: f32 = simd_reduce_add_ordered(x, 0.);
	assert_eq!(r, 6_f32);
	let r: f32 = simd_reduce_mul_ordered(x, 1.);
	assert_eq!(r, -24_f32);
	let r: f32 = simd_reduce_add_ordered(x, 1.);
	assert_eq!(r, 7_f32);
	let r: f32 = simd_reduce_mul_ordered(x, 2.);
	assert_eq!(r, -48_f32);

	let r: f32 = simd_reduce_min(x);
	assert_eq!(r, -2_f32);
	let r: f32 = simd_reduce_max(x);
	assert_eq!(r, 4_f32);
	let r: f32 = simd_reduce_min_nanless(x);
	assert_eq!(r, -2_f32);
	let r: f32 = simd_reduce_max_nanless(x);
	assert_eq!(r, 4_f32);
	}

	unsafe {
	let x = b8x4(!0, !0, !0, !0);
	let r: bool = simd_reduce_all(x);
	assert_eq!(r, true);
	let r: bool = simd_reduce_any(x);
	assert_eq!(r, true);

	let x = b8x4(!0, !0, 0, !0);
	let r: bool = simd_reduce_all(x);
	assert_eq!(r, false);
	let r: bool = simd_reduce_any(x);
	assert_eq!(r, true);

	let x = b8x4(0, 0, 0, 0);
	let r: bool = simd_reduce_all(x);
	assert_eq!(r, false);
	let r: bool = simd_reduce_any(x);
	assert_eq!(r, false);
	}
	}