//! Implementation of the `#[simd_test]` macro //! //! This macro expands to a `#[test]` function which tests the local machine //! for the appropriate cfg before calling the inner test function. #![deny(rust_2018_idioms)] #[macro_use] extern crate quote; use proc_macro2::{Ident, Literal, Span, TokenStream, TokenTree}; use quote::ToTokens; use std::env; fn string(s: &str) -> TokenTree { Literal::string(s).into() } #[proc_macro_attribute] pub fn simd_test( attr: proc_macro::TokenStream, item: proc_macro::TokenStream, ) -> proc_macro::TokenStream { let tokens = TokenStream::from(attr).into_iter().collect::>(); if tokens.len() != 3 { panic!("expected #[simd_test(enable = \"feature\")]"); } match &tokens[0] { TokenTree::Ident(tt) if *tt == "enable" => {} _ => panic!("expected #[simd_test(enable = \"feature\")]"), } match &tokens[1] { TokenTree::Punct(tt) if tt.as_char() == '=' => {} _ => panic!("expected #[simd_test(enable = \"feature\")]"), } let enable_feature = match &tokens[2] { TokenTree::Literal(tt) => tt.to_string(), _ => panic!("expected #[simd_test(enable = \"feature\")]"), }; let enable_feature = enable_feature.trim_start_matches('"').trim_end_matches('"'); let target_features: Vec = enable_feature .replace('+', "") .split(',') .map(String::from) .collect(); let enable_feature = string(enable_feature); let mut item = syn::parse_macro_input!(item as syn::ItemFn); let item_attrs = std::mem::take(&mut item.attrs); let name = &item.sig.ident; let target = env::var("TARGET").expect( "TARGET environment variable should be set for rustc (e.g. TARGET=x86_64-apple-darwin cargo test)" ); let mut force_test = false; let macro_test = match target .split('-') .next() .unwrap_or_else(|| panic!("target triple contained no \"-\": {target}")) { "i686" | "x86_64" | "i586" => "is_x86_feature_detected", "arm" | "armv7" => "is_arm_feature_detected", "aarch64" => "is_aarch64_feature_detected", maybe_riscv if maybe_riscv.starts_with("riscv") => "is_riscv_feature_detected", "powerpc" | "powerpcle" => "is_powerpc_feature_detected", "powerpc64" | "powerpc64le" => "is_powerpc64_feature_detected", "mips" | "mipsel" | "mipsisa32r6" | "mipsisa32r6el" => { // FIXME: // On MIPS CI run-time feature detection always returns false due // to this qemu bug: https://bugs.launchpad.net/qemu/+bug/1754372 // // This is a workaround to force the MIPS tests to always run on // CI. force_test = true; "is_mips_feature_detected" } "mips64" | "mips64el" | "mipsisa64r6" | "mipsisa64r6el" => { // FIXME: see above force_test = true; "is_mips64_feature_detected" } t => panic!("unknown target: {t}"), }; let macro_test = Ident::new(macro_test, Span::call_site()); let mut cfg_target_features = TokenStream::new(); for feature in target_features { let q = quote_spanned! { proc_macro2::Span::call_site() => #macro_test!(#feature) && }; q.to_tokens(&mut cfg_target_features); } let q = quote! { true }; q.to_tokens(&mut cfg_target_features); let test_norun = std::env::var("STDSIMD_TEST_NORUN").is_ok(); let maybe_ignore = if test_norun { quote! { #[ignore] } } else { TokenStream::new() }; let ret: TokenStream = quote_spanned! { proc_macro2::Span::call_site() => #[allow(non_snake_case)] #[test] #maybe_ignore #(#item_attrs)* fn #name() { if #force_test | (#cfg_target_features) { let v = unsafe { #name() }; return v; } else { ::stdarch_test::assert_skip_test_ok(stringify!(#name)); } #[target_feature(enable = #enable_feature)] #item } }; ret.into() }