mirror of https://github.com/rust-lang/rust
92 lines
2.6 KiB
Rust
92 lines
2.6 KiB
Rust
//@ compile-flags: -C no-prepopulate-passes -Copt-level=0
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// This test checks that constants of SIMD type are passed as immediate vectors.
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// We ensure that both vector representations (struct with fields and struct wrapping array) work.
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#![crate_type = "lib"]
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#![feature(abi_unadjusted)]
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#![feature(const_trait_impl)]
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#![feature(repr_simd)]
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#![feature(rustc_attrs)]
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#![feature(simd_ffi)]
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#![allow(non_camel_case_types)]
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// Setting up structs that can be used as const vectors
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#[repr(simd)]
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#[derive(Clone)]
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pub struct i8x2([i8; 2]);
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#[repr(simd)]
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#[derive(Clone)]
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pub struct f32x2([f32; 2]);
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#[repr(simd, packed)]
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#[derive(Copy, Clone)]
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pub struct Simd<T, const N: usize>([T; N]);
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// The following functions are required for the tests to ensure
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// that they are called with a const vector
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extern "unadjusted" {
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fn test_i8x2(a: i8x2);
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}
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extern "unadjusted" {
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fn test_i8x2_two_args(a: i8x2, b: i8x2);
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}
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extern "unadjusted" {
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fn test_i8x2_mixed_args(a: i8x2, c: i32, b: i8x2);
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}
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extern "unadjusted" {
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fn test_i8x2_arr(a: i8x2);
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}
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extern "unadjusted" {
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fn test_f32x2(a: f32x2);
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}
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extern "unadjusted" {
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fn test_f32x2_arr(a: f32x2);
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}
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extern "unadjusted" {
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fn test_simd(a: Simd<i32, 4>);
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}
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extern "unadjusted" {
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fn test_simd_unaligned(a: Simd<i32, 3>);
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}
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// Ensure the packed variant of the simd struct does not become a const vector
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// if the size is not a power of 2
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// CHECK: %"Simd<i32, 3>" = type { [3 x i32] }
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pub fn do_call() {
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unsafe {
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// CHECK: call void @test_i8x2(<2 x i8> <i8 32, i8 64>
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test_i8x2(const { i8x2([32, 64]) });
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// CHECK: call void @test_i8x2_two_args(<2 x i8> <i8 32, i8 64>, <2 x i8> <i8 8, i8 16>
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test_i8x2_two_args(const { i8x2([32, 64]) }, const { i8x2([8, 16]) });
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// CHECK: call void @test_i8x2_mixed_args(<2 x i8> <i8 32, i8 64>, i32 43, <2 x i8> <i8 8, i8 16>
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test_i8x2_mixed_args(const { i8x2([32, 64]) }, 43, const { i8x2([8, 16]) });
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// CHECK: call void @test_i8x2_arr(<2 x i8> <i8 32, i8 64>
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test_i8x2_arr(const { i8x2([32, 64]) });
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// CHECK: call void @test_f32x2(<2 x float> <float 0x3FD47AE140000000, float 0x3FE47AE140000000>
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test_f32x2(const { f32x2([0.32, 0.64]) });
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// CHECK: void @test_f32x2_arr(<2 x float> <float 0x3FD47AE140000000, float 0x3FE47AE140000000>
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test_f32x2_arr(const { f32x2([0.32, 0.64]) });
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// CHECK: call void @test_simd(<4 x i32> <i32 2, i32 4, i32 6, i32 8>
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test_simd(const { Simd::<i32, 4>([2, 4, 6, 8]) });
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// CHECK: call void @test_simd_unaligned(%"Simd<i32, 3>" %1
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test_simd_unaligned(const { Simd::<i32, 3>([2, 4, 6]) });
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}
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}
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