//! Build program to generate a program which runs all the testsuites. //! //! By generating a separate `#[test]` test for each file, we allow cargo test //! to automatically run the files in parallel. use anyhow::Context; use std::env; use std::fmt::Write; use std::fs; use std::path::{Path, PathBuf}; use std::process::Command; fn main() -> anyhow::Result<()> { println!("cargo:rerun-if-changed=build.rs"); let out_dir = PathBuf::from( env::var_os("OUT_DIR").expect("The OUT_DIR environment variable must be set"), ); let mut out = String::new(); for strategy in &[ "Cranelift", #[cfg(feature = "lightbeam")] "Lightbeam", ] { writeln!(out, "#[cfg(test)]")?; writeln!(out, "#[allow(non_snake_case)]")?; writeln!(out, "mod {} {{", strategy)?; with_test_module(&mut out, "misc", |out| { test_directory(out, "tests/misc_testsuite", strategy)?; test_directory_module(out, "tests/misc_testsuite/bulk-memory-operations", strategy)?; test_directory_module(out, "tests/misc_testsuite/reference-types", strategy)?; test_directory_module(out, "tests/misc_testsuite/multi-memory", strategy)?; Ok(()) })?; with_test_module(&mut out, "spec", |out| { let spec_tests = test_directory(out, "tests/spec_testsuite", strategy)?; // Skip running spec_testsuite tests if the submodule isn't checked // out. if spec_tests > 0 { test_directory_module(out, "tests/spec_testsuite/proposals/simd", strategy)?; test_directory_module( out, "tests/spec_testsuite/proposals/reference-types", strategy, )?; test_directory_module( out, "tests/spec_testsuite/proposals/bulk-memory-operations", strategy, )?; } else { println!( "cargo:warning=The spec testsuite is disabled. To enable, run `git submodule \ update --remote`." ); } Ok(()) })?; writeln!(out, "}}")?; } // Write out our auto-generated tests and opportunistically format them with // `rustfmt` if it's installed. let output = out_dir.join("wast_testsuite_tests.rs"); fs::write(&output, out)?; drop(Command::new("rustfmt").arg(&output).status()); Ok(()) } fn test_directory_module( out: &mut String, path: impl AsRef, strategy: &str, ) -> anyhow::Result { let path = path.as_ref(); let testsuite = &extract_name(path); with_test_module(out, testsuite, |out| test_directory(out, path, strategy)) } fn test_directory( out: &mut String, path: impl AsRef, strategy: &str, ) -> anyhow::Result { let path = path.as_ref(); let mut dir_entries: Vec<_> = path .read_dir() .context(format!("failed to read {:?}", path))? .map(|r| r.expect("reading testsuite directory entry")) .filter_map(|dir_entry| { let p = dir_entry.path(); let ext = p.extension()?; // Only look at wast files. if ext != "wast" { return None; } // Ignore files starting with `.`, which could be editor temporary files if p.file_stem()?.to_str()?.starts_with(".") { return None; } Some(p) }) .collect(); dir_entries.sort(); let testsuite = &extract_name(path); for entry in dir_entries.iter() { write_testsuite_tests(out, entry, testsuite, strategy)?; } Ok(dir_entries.len()) } /// Extract a valid Rust identifier from the stem of a path. fn extract_name(path: impl AsRef) -> String { path.as_ref() .file_stem() .expect("filename should have a stem") .to_str() .expect("filename should be representable as a string") .replace("-", "_") .replace("/", "_") } fn with_test_module( out: &mut String, testsuite: &str, f: impl FnOnce(&mut String) -> anyhow::Result, ) -> anyhow::Result { out.push_str("mod "); out.push_str(testsuite); out.push_str(" {\n"); let result = f(out)?; out.push_str("}\n"); Ok(result) } fn write_testsuite_tests( out: &mut String, path: impl AsRef, testsuite: &str, strategy: &str, ) -> anyhow::Result<()> { let path = path.as_ref(); let testname = extract_name(path); writeln!(out, "#[test]")?; if experimental_x64_should_panic(testsuite, &testname, strategy) { writeln!( out, r#"#[cfg_attr(feature = "experimental_x64", should_panic)]"# )?; } else if ignore(testsuite, &testname, strategy) { writeln!(out, "#[ignore]")?; } writeln!(out, "fn r#{}() {{", &testname)?; writeln!(out, " let _ = env_logger::try_init();")?; writeln!( out, " crate::wast::run_wast(r#\"{}\"#, crate::wast::Strategy::{}).unwrap();", path.display(), strategy )?; writeln!(out, "}}")?; writeln!(out)?; Ok(()) } /// For experimental_x64 backend features that are not supported yet, mark tests as panicking, so /// they stop "passing" once the features are properly implemented. fn experimental_x64_should_panic(testsuite: &str, testname: &str, strategy: &str) -> bool { if !cfg!(feature = "experimental_x64") || strategy != "Cranelift" { return false; } match (testsuite, testname) { ("simd", "simd_address") => return false, ("simd", "simd_bitwise") => return false, ("simd", "simd_const") => return false, ("simd", "simd_i8x16_arith") => return false, ("simd", "simd_i8x16_arith2") => return false, ("simd", "simd_i8x16_cmp") => return false, ("simd", "simd_i8x16_sat_arith") => return false, ("simd", "simd_i16x8_arith") => return false, ("simd", "simd_i16x8_arith2") => return false, ("simd", "simd_i16x8_cmp") => return false, ("simd", "simd_i16x8_sat_arith") => return false, ("simd", "simd_i32x4_arith") => return false, ("simd", "simd_i32x4_arith2") => return false, ("simd", "simd_i32x4_cmp") => return false, ("simd", "simd_i64x2_arith") => return false, ("simd", "simd_f32x4") => return false, ("simd", "simd_f32x4_arith") => return false, ("simd", "simd_f32x4_cmp") => return false, ("simd", "simd_f64x2") => return false, ("simd", "simd_f64x2_arith") => return false, ("simd", "simd_f64x2_cmp") => return false, ("simd", "simd_lane") => return false, ("simd", "simd_load_splat") => return false, ("simd", "simd_store") => return false, ("simd", _) => return true, _ => {} } false } /// Ignore tests that aren't supported yet. fn ignore(testsuite: &str, testname: &str, strategy: &str) -> bool { match strategy { #[cfg(feature = "lightbeam")] "Lightbeam" => match (testsuite, testname) { ("simd", _) => return true, ("multi_value", _) => return true, ("reference_types", _) => return true, ("bulk_memory_operations", _) => return true, _ => (), }, "Cranelift" => match (testsuite, testname) { // TODO(#1886): Ignore reference types tests if this isn't x64, // because Cranelift only supports reference types on x64. ("reference_types", _) => { return env::var("CARGO_CFG_TARGET_ARCH").unwrap() != "x86_64"; } // These tests have simd operators which aren't implemented yet. ("simd", "simd_boolean") => return true, ("simd", "simd_f32x4_pmin_pmax") => return true, ("simd", "simd_f32x4_rounding") => return true, ("simd", "simd_f64x2_pmin_pmax") => return true, ("simd", "simd_f64x2_rounding") => return true, _ => {} }, _ => panic!("unrecognized strategy"), } false }