// This file is part of the uutils acl package. // // For the full copyright and license information, please view the LICENSE // file that was distributed with this source code. // spell-checker:ignore (vars) krate use std::env; use std::fs::File; use std::io::Write; use std::path::Path; pub fn main() { if let Ok(profile) = env::var("PROFILE") { println!("cargo:rustc-cfg=build={profile:?}"); } const ENV_FEATURE_PREFIX: &str = "CARGO_FEATURE_"; const FEATURE_PREFIX: &str = "feat_"; const OVERRIDE_PREFIX: &str = "uu_"; let out_dir = env::var("OUT_DIR").unwrap(); let mut crates = Vec::new(); for (key, val) in env::vars() { if val == "1" && key.starts_with(ENV_FEATURE_PREFIX) { let krate = key[ENV_FEATURE_PREFIX.len()..].to_lowercase(); // Allow this as we have a bunch of info in the comments #[allow(clippy::match_same_arms)] match krate.as_ref() { "default" | "macos" | "unix" | "windows" | "selinux" | "zip" => continue, // common/standard feature names "nightly" | "test_unimplemented" => continue, // crate-local custom features "uudoc" => continue, // is not a utility "test" => continue, // over-ridden with 'uu_test' to avoid collision with rust core crate 'test' s if s.starts_with(FEATURE_PREFIX) => continue, // crate feature sets _ => {} // util feature name } crates.push(krate); } } crates.sort(); let mut mf = File::create(Path::new(&out_dir).join("uutils_map.rs")).unwrap(); mf.write_all( "type UtilityMap = phf::OrderedMap<&'static str, (fn(T) -> i32, fn() -> Command)>;\n\ \n\ #[allow(clippy::too_many_lines)] fn util_map() -> UtilityMap {\n" .as_bytes(), ) .unwrap(); let mut phf_map = phf_codegen::OrderedMap::<&str>::new(); for krate in &crates { let map_value = format!("({krate}::uumain, {krate}::uu_app)"); match krate.as_ref() { // 'test' is named uu_test to avoid collision with rust core crate 'test'. // It can also be invoked by name '[' for the '[ expr ] syntax'. "uu_test" => { phf_map.entry("test", &map_value); phf_map.entry("[", &map_value); } k if k.starts_with(OVERRIDE_PREFIX) => { phf_map.entry(&k[OVERRIDE_PREFIX.len()..], &map_value); } "false" | "true" => { phf_map.entry(krate, &format!("(r#{krate}::uumain, r#{krate}::uu_app)")); } "hashsum" => { phf_map.entry(krate, &format!("({krate}::uumain, {krate}::uu_app_custom)")); let map_value = format!("({krate}::uumain, {krate}::uu_app_common)"); let map_value_bits = format!("({krate}::uumain, {krate}::uu_app_bits)"); let map_value_b3sum = format!("({krate}::uumain, {krate}::uu_app_b3sum)"); phf_map.entry("md5sum", &map_value); phf_map.entry("sha1sum", &map_value); phf_map.entry("sha224sum", &map_value); phf_map.entry("sha256sum", &map_value); phf_map.entry("sha384sum", &map_value); phf_map.entry("sha512sum", &map_value); phf_map.entry("sha3sum", &map_value_bits); phf_map.entry("sha3-224sum", &map_value); phf_map.entry("sha3-256sum", &map_value); phf_map.entry("sha3-384sum", &map_value); phf_map.entry("sha3-512sum", &map_value); phf_map.entry("shake128sum", &map_value_bits); phf_map.entry("shake256sum", &map_value_bits); phf_map.entry("b2sum", &map_value); phf_map.entry("b3sum", &map_value_b3sum); } _ => { phf_map.entry(krate, &map_value); } } } write!(mf, "{}", phf_map.build()).unwrap(); mf.write_all(b"\n}\n").unwrap(); mf.flush().unwrap(); }