// This test generates an instrumented binary - a program which // will keep track of how many times it calls each function, a useful // feature for optimization. Then, an argument (aaaaaaaaaaaa2bbbbbbbbbbbb2bbbbbbbbbbbbbbbbcc) // is passed into the instrumented binary, which should react with a number of function calls // fully known in advance. (For example, the letter 'a' results in calling f1()) // If the test passes, the expected function call count was added to the use-phase LLVM-IR. // See https://github.com/rust-lang/rust/pull/66631 //@ needs-profiler-runtime //@ ignore-cross-compile use std::path::Path; use run_make_support::{llvm_filecheck, llvm_profdata, rfs, run_with_args, rustc}; fn main() { let path_prof_data_dir = Path::new("prof_data_dir"); let path_merged_profdata = path_prof_data_dir.join("merged.profdata"); rustc().input("opaque.rs").run(); rfs::create_dir_all(&path_prof_data_dir); rustc() .input("interesting.rs") .profile_generate(&path_prof_data_dir) .opt() .codegen_units(1) .run(); rustc().input("main.rs").profile_generate(&path_prof_data_dir).opt().run(); run_with_args("main", &["aaaaaaaaaaaa2bbbbbbbbbbbb2bbbbbbbbbbbbbbbbcc"]); llvm_profdata().merge().output(&path_merged_profdata).input(path_prof_data_dir).run(); rustc() .input("interesting.rs") .profile_use(path_merged_profdata) .opt() .codegen_units(1) .emit("llvm-ir") .run(); llvm_filecheck() .patterns("filecheck-patterns.txt") .stdin_buf(rfs::read("interesting.ll")) .run(); }