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cf6d6050f7
* The WASI targets deal with the `main` symbol a bit differently than native so some `codegen` and `assembly` tests have been ignored. * All `ignore-emscripten` directives have been updated to `ignore-wasm32` to be more clear that all wasm targets are ignored and it's not just Emscripten. * Most `ignore-wasm32-bare` directives are now gone. * Some ignore directives for wasm were switched to `needs-unwind` instead. * Many `ignore-wasm32*` directives are removed as the tests work with WASI as opposed to `wasm32-unknown-unknown`.
193 lines
5.3 KiB
Rust
193 lines
5.3 KiB
Rust
// This test check that even if we mixup target feature of function with homogenous floats,
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// the abi is sound and still produce the right answer.
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//
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// This is basically the same test as tests/ui/simd/target-feature-mixup.rs but for floats and
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// without #[repr(simd)]
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//@ run-pass
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//@ ignore-wasm32 no processes
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//@ ignore-sgx no processes
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#![feature(avx512_target_feature)]
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#![allow(overflowing_literals)]
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#![allow(unused_variables)]
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use std::process::{Command, ExitStatus};
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use std::env;
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fn main() {
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if let Some(level) = env::args().nth(1) {
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return test::main(&level)
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}
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match std::env::var("TARGET") {
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Ok(s) => {
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// Skip this tests on i586-unknown-linux-gnu where sse2 is disabled
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if s.contains("i586") {
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return
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}
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}
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Err(_) => return,
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}
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let me = env::current_exe().unwrap();
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for level in ["sse", "avx", "avx512"].iter() {
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let status = Command::new(&me).arg(level).status().unwrap();
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if status.success() {
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println!("success with {}", level);
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continue
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}
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// We don't actually know if our computer has the requisite target features
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// for the test below. Testing for that will get added to libstd later so
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// for now just assume sigill means this is a machine that can't run this test.
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if is_sigill(status) {
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println!("sigill with {}, assuming spurious", level);
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continue
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}
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panic!("invalid status at {}: {}", level, status);
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}
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}
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#[cfg(unix)]
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fn is_sigill(status: ExitStatus) -> bool {
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use std::os::unix::prelude::*;
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status.signal() == Some(4)
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}
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#[cfg(windows)]
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fn is_sigill(status: ExitStatus) -> bool {
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status.code() == Some(0xc000001d)
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}
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#[cfg(any(target_arch = "x86", target_arch = "x86_64"))]
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#[allow(nonstandard_style)]
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mod test {
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#[derive(PartialEq, Debug, Clone, Copy)]
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struct f32x2(f32, f32);
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#[derive(PartialEq, Debug, Clone, Copy)]
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struct f32x4(f32, f32, f32, f32);
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#[derive(PartialEq, Debug, Clone, Copy)]
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struct f32x8(f32, f32, f32, f32, f32, f32, f32, f32);
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pub fn main(level: &str) {
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unsafe {
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main_normal(level);
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main_sse(level);
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if level == "sse" {
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return
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}
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main_avx(level);
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if level == "avx" {
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return
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}
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main_avx512(level);
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}
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}
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macro_rules! mains {
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($(
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$(#[$attr:meta])*
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unsafe fn $main:ident(level: &str) {
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...
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}
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)*) => ($(
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$(#[$attr])*
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unsafe fn $main(level: &str) {
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let m128 = f32x2(1., 2.);
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let m256 = f32x4(3., 4., 5., 6.);
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let m512 = f32x8(7., 8., 9., 10., 11., 12., 13., 14.);
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assert_eq!(id_sse_128(m128), m128);
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assert_eq!(id_sse_256(m256), m256);
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assert_eq!(id_sse_512(m512), m512);
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if level == "sse" {
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return
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}
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assert_eq!(id_avx_128(m128), m128);
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assert_eq!(id_avx_256(m256), m256);
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assert_eq!(id_avx_512(m512), m512);
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if level == "avx" {
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return
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}
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assert_eq!(id_avx512_128(m128), m128);
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assert_eq!(id_avx512_256(m256), m256);
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assert_eq!(id_avx512_512(m512), m512);
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}
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)*)
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}
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mains! {
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unsafe fn main_normal(level: &str) { ... }
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#[target_feature(enable = "sse2")]
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unsafe fn main_sse(level: &str) { ... }
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#[target_feature(enable = "avx")]
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unsafe fn main_avx(level: &str) { ... }
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#[target_feature(enable = "avx512bw")]
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unsafe fn main_avx512(level: &str) { ... }
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}
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#[target_feature(enable = "sse2")]
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unsafe fn id_sse_128(a: f32x2) -> f32x2 {
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assert_eq!(a, f32x2(1., 2.));
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a.clone()
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}
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#[target_feature(enable = "sse2")]
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unsafe fn id_sse_256(a: f32x4) -> f32x4 {
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assert_eq!(a, f32x4(3., 4., 5., 6.));
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a.clone()
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}
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#[target_feature(enable = "sse2")]
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unsafe fn id_sse_512(a: f32x8) -> f32x8 {
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assert_eq!(a, f32x8(7., 8., 9., 10., 11., 12., 13., 14.));
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a.clone()
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}
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#[target_feature(enable = "avx")]
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unsafe fn id_avx_128(a: f32x2) -> f32x2 {
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assert_eq!(a, f32x2(1., 2.));
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a.clone()
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}
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#[target_feature(enable = "avx")]
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unsafe fn id_avx_256(a: f32x4) -> f32x4 {
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assert_eq!(a, f32x4(3., 4., 5., 6.));
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a.clone()
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}
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#[target_feature(enable = "avx")]
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unsafe fn id_avx_512(a: f32x8) -> f32x8 {
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assert_eq!(a, f32x8(7., 8., 9., 10., 11., 12., 13., 14.));
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a.clone()
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}
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#[target_feature(enable = "avx512bw")]
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unsafe fn id_avx512_128(a: f32x2) -> f32x2 {
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assert_eq!(a, f32x2(1., 2.));
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a.clone()
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}
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#[target_feature(enable = "avx512bw")]
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unsafe fn id_avx512_256(a: f32x4) -> f32x4 {
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assert_eq!(a, f32x4(3., 4., 5., 6.));
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a.clone()
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}
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#[target_feature(enable = "avx512bw")]
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unsafe fn id_avx512_512(a: f32x8) -> f32x8 {
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assert_eq!(a, f32x8(7., 8., 9., 10., 11., 12., 13., 14.));
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a.clone()
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}
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}
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#[cfg(not(any(target_arch = "x86", target_arch = "x86_64")))]
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mod test {
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pub fn main(level: &str) {}
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}
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