// error-pattern:yummy #![feature(box_syntax)] #![feature(rustc_private)] #![allow(unknown_lints, missing_docs_in_private_items)] use std::collections::HashMap; use std::process; use std::io::{self, Write}; extern crate cargo_metadata; use std::path::{Path, PathBuf}; const CARGO_CLIPPY_HELP: &str = r#"Checks a package to catch common mistakes and improve your Rust code. Usage: cargo clippy [options] [--] [...] Common options: -h, --help Print this message --features Features to compile for the package -V, --version Print version info and exit --all Run over all packages in the current workspace Other options are the same as `cargo rustc`. To allow or deny a lint from the command line you can use `cargo clippy --` with: -W --warn OPT Set lint warnings -A --allow OPT Set lint allowed -D --deny OPT Set lint denied -F --forbid OPT Set lint forbidden The feature `cargo-clippy` is automatically defined for convenience. You can use it to allow or deny lints from the code, eg.: #[cfg_attr(feature = "cargo-clippy", allow(needless_lifetimes))] "#; #[allow(print_stdout)] fn show_help() { println!("{}", CARGO_CLIPPY_HELP); } #[allow(print_stdout)] fn show_version() { println!("{}", env!("CARGO_PKG_VERSION")); } pub fn main() { // Check for version and help flags even when invoked as 'cargo-clippy' if std::env::args().any(|a| a == "--help" || a == "-h") { show_help(); return; } if std::env::args().any(|a| a == "--version" || a == "-V") { show_version(); return; } let manifest_path_arg = std::env::args() .skip(2) .find(|val| val.starts_with("--manifest-path=")) .map(|val| val["--manifest-path=".len()..].to_owned()); let mut metadata = if let Ok(metadata) = cargo_metadata::metadata(manifest_path_arg.as_ref().map(AsRef::as_ref)) { metadata } else { println!("{:?}", cargo_metadata::metadata(manifest_path_arg.as_ref().map(AsRef::as_ref))); let _ = io::stderr().write_fmt(format_args!("error: Could not obtain cargo metadata.\n")); process::exit(101); }; let manifest_path = manifest_path_arg.map(|arg| { PathBuf::from(arg) .canonicalize() .expect("manifest path could not be canonicalized") }); let packages = if std::env::args().any(|a| a == "--all") { metadata.packages } else { let package_index = { if let Some(manifest_path) = manifest_path { metadata.packages.iter().position(|package| { let package_manifest_path = Path::new(&package.manifest_path) .canonicalize() .expect("package manifest path could not be canonicalized"); package_manifest_path == manifest_path }) } else { let package_manifest_paths: HashMap<_, _> = metadata .packages .iter() .enumerate() .map(|(i, package)| { let package_manifest_path = Path::new(&package.manifest_path) .parent() .expect("could not find parent directory of package manifest") .canonicalize() .expect("package directory cannot be canonicalized"); (package_manifest_path, i) }) .collect(); let current_dir = std::env::current_dir() .expect("could not read current directory") .canonicalize() .expect("current directory cannot be canonicalized"); let mut current_path: &Path = ¤t_dir; // This gets the most-recent parent (the one that takes the fewest `cd ..`s to // reach). loop { if let Some(&package_index) = package_manifest_paths.get(current_path) { break Some(package_index); } else { // We'll never reach the filesystem root, because to get to this point in the // code // the call to `cargo_metadata::metadata` must have succeeded. So it's okay to // unwrap the current path's parent. current_path = current_path .parent() .unwrap_or_else(|| panic!("could not find parent of path {}", current_path.display())); } } } }.expect("could not find matching package"); vec![metadata.packages.remove(package_index)] }; for package in packages { let manifest_path = package.manifest_path; for target in package.targets { let args = std::env::args() .skip(2) .filter(|a| a != "--all" && !a.starts_with("--manifest-path=")); let args = std::iter::once(format!("--manifest-path={}", manifest_path)).chain(args); if let Some(first) = target.kind.get(0) { if target.kind.len() > 1 || first.ends_with("lib") { println!("lib: {}", target.name); if let Err(code) = process(std::iter::once("--lib".to_owned()).chain(args)) { std::process::exit(code); } } else if ["bin", "example", "test", "bench"].contains(&&**first) { println!("{}: {}", first, target.name); if let Err(code) = process( vec![format!("--{}", first), target.name] .into_iter() .chain(args), ) { std::process::exit(code); } } } else { panic!("badly formatted cargo metadata: target::kind is an empty array"); } } } } fn process(old_args: I) -> Result<(), i32> where I: Iterator, { let mut args = vec!["rustc".to_owned()]; let mut found_dashes = false; for arg in old_args { found_dashes |= arg == "--"; args.push(arg); } if !found_dashes { args.push("--".to_owned()); } args.push("--emit=metadata".to_owned()); args.push("--cfg".to_owned()); args.push(r#"feature="cargo-clippy""#.to_owned()); let mut path = std::env::current_exe() .expect("current executable path invalid") .with_file_name("clippy-driver"); if cfg!(windows) { path.set_extension("exe"); } let exit_status = std::process::Command::new("cargo") .args(&args) .env("RUSTC_WRAPPER", path) .spawn() .expect("could not run cargo") .wait() .expect("failed to wait for cargo?"); if exit_status.success() { Ok(()) } else { Err(exit_status.code().unwrap_or(-1)) } }