//! Test command for running CLIF files and verifying their results //! //! The `run` test command compiles each function on the host machine and executes it use crate::function_runner::SingleFunctionCompiler; use crate::subtest::{Context, SubTest}; use cranelift_codegen::ir; use cranelift_reader::parse_run_command; use cranelift_reader::TestCommand; use log::trace; use std::borrow::Cow; use target_lexicon::Architecture; struct TestRun; pub fn subtest(parsed: &TestCommand) -> anyhow::Result> { assert_eq!(parsed.command, "run"); if !parsed.options.is_empty() { anyhow::bail!("No options allowed on {}", parsed); } Ok(Box::new(TestRun)) } impl SubTest for TestRun { fn name(&self) -> &'static str { "run" } fn is_mutating(&self) -> bool { false } fn needs_isa(&self) -> bool { true } fn run(&self, func: Cow, context: &Context) -> anyhow::Result<()> { // If this test requests to run on a completely different // architecture than the host platform then we skip it entirely, // since we won't be able to natively execute machine code. let requested_arch = context.isa.unwrap().triple().architecture; if requested_arch != Architecture::host() { println!( "skipped {}: host can't run {:?} programs", context.file_path, requested_arch ); return Ok(()); } let variant = context.isa.unwrap().variant(); let mut compiler = SingleFunctionCompiler::with_host_isa(context.flags.clone(), variant); for comment in context.details.comments.iter() { if let Some(command) = parse_run_command(comment.text, &func.signature)? { trace!("Parsed run command: {}", command); // Note that here we're also explicitly ignoring `context.isa`, // regardless of what's requested. We want to use the native // host ISA no matter what here, so the ISA listed in the file // is only used as a filter to not run into situations like // running x86_64 code on aarch64 platforms. let compiled_fn = compiler.compile(func.clone().into_owned())?; command .run(|_, args| Ok(compiled_fn.call(args))) .map_err(|s| anyhow::anyhow!("{}", s))?; } } Ok(()) } }