extern crate clap; #[macro_use] extern crate failure; extern crate ron; extern crate tera; extern crate tools; extern crate walkdir; extern crate heck; use clap::{App, Arg, SubCommand}; use heck::{CamelCase, ShoutySnakeCase, SnakeCase}; use std::{ collections::HashMap, fs, path::{Path, PathBuf}, process::Command, }; use tools::{collect_tests, Test}; type Result = ::std::result::Result; const GRAMMAR_DIR: &str = "./crates/libsyntax2/src/grammar"; const INLINE_TESTS_DIR: &str = "./crates/libsyntax2/tests/data/parser/inline"; const GRAMMAR: &str = "./crates/libsyntax2/src/grammar.ron"; const SYNTAX_KINDS: &str = "./crates/libsyntax2/src/syntax_kinds/generated.rs"; const SYNTAX_KINDS_TEMPLATE: &str = "./crates/libsyntax2/src/syntax_kinds/generated.rs.tera"; const AST: &str = "./crates/libsyntax2/src/ast/generated.rs"; const AST_TEMPLATE: &str = "./crates/libsyntax2/src/ast/generated.rs.tera"; fn main() -> Result<()> { let matches = App::new("tasks") .setting(clap::AppSettings::SubcommandRequiredElseHelp) .arg( Arg::with_name("verify") .long("--verify") .help("Verify that generated code is up-to-date") .global(true), ) .subcommand(SubCommand::with_name("gen-kinds")) .subcommand(SubCommand::with_name("gen-tests")) .subcommand(SubCommand::with_name("install-code")) .get_matches(); match matches.subcommand() { ("install-code", _) => install_code_extension()?, (name, Some(matches)) => run_gen_command(name, matches.is_present("verify"))?, _ => unreachable!(), } Ok(()) } fn run_gen_command(name: &str, verify: bool) -> Result<()> { match name { "gen-kinds" => { update(Path::new(SYNTAX_KINDS), &render_template(SYNTAX_KINDS_TEMPLATE)?, verify)?; update(Path::new(AST), &render_template(AST_TEMPLATE)?, verify)?; }, "gen-tests" => { gen_tests(verify)? }, _ => unreachable!(), } Ok(()) } fn update(path: &Path, contents: &str, verify: bool) -> Result<()> { match fs::read_to_string(path) { Ok(ref old_contents) if old_contents == contents => { return Ok(()); } _ => (), } if verify { bail!("`{}` is not up-to-date", path.display()); } eprintln!("updating {}", path.display()); fs::write(path, contents)?; Ok(()) } fn render_template(template: &str) -> Result { let grammar: ron::value::Value = { let text = fs::read_to_string(GRAMMAR)?; ron::de::from_str(&text)? }; let template = fs::read_to_string(template)?; let mut tera = tera::Tera::default(); tera.add_raw_template("grammar", &template) .map_err(|e| format_err!("template error: {:?}", e))?; tera.register_global_function("concat", Box::new(concat)); tera.register_filter("camel", |arg, _| { Ok(arg.as_str().unwrap().to_camel_case().into()) }); tera.register_filter("snake", |arg, _| { Ok(arg.as_str().unwrap().to_snake_case().into()) }); tera.register_filter("SCREAM", |arg, _| { Ok(arg.as_str().unwrap().to_shouty_snake_case().into()) }); let ret = tera .render("grammar", &grammar) .map_err(|e| format_err!("template error: {:?}", e))?; return Ok(ret); fn concat(args: HashMap) -> tera::Result { let mut elements = Vec::new(); for &key in ["a", "b", "c"].iter() { let val = match args.get(key) { Some(val) => val, None => continue, }; let val = val.as_array().unwrap(); elements.extend(val.iter().cloned()); } Ok(tera::Value::Array(elements)) } } fn gen_tests(verify: bool) -> Result<()> { let tests = tests_from_dir(Path::new(GRAMMAR_DIR))?; let inline_tests_dir = Path::new(INLINE_TESTS_DIR); if !inline_tests_dir.is_dir() { fs::create_dir_all(inline_tests_dir)?; } let existing = existing_tests(inline_tests_dir)?; for t in existing.keys().filter(|&t| !tests.contains_key(t)) { panic!("Test is deleted: {}", t); } let mut new_idx = existing.len() + 2; for (name, test) in tests { let path = match existing.get(&name) { Some((path, _test)) => path.clone(), None => { let file_name = format!("{:04}_{}.rs", new_idx, name); new_idx += 1; inline_tests_dir.join(file_name) } }; update(&path, &test.text, verify)?; } Ok(()) } fn tests_from_dir(dir: &Path) -> Result> { let mut res = HashMap::new(); for entry in ::walkdir::WalkDir::new(dir) { let entry = entry.unwrap(); if !entry.file_type().is_file() { continue; } if entry.path().extension().unwrap_or_default() != "rs" { continue; } let text = fs::read_to_string(entry.path())?; for (_, test) in collect_tests(&text) { if let Some(old_test) = res.insert(test.name.clone(), test) { bail!("Duplicate test: {}", old_test.name) } } } Ok(res) } fn existing_tests(dir: &Path) -> Result> { let mut res = HashMap::new(); for file in fs::read_dir(dir)? { let file = file?; let path = file.path(); if path.extension().unwrap_or_default() != "rs" { continue; } let name = { let file_name = path.file_name().unwrap().to_str().unwrap(); file_name[5..file_name.len() - 3].to_string() }; let text = fs::read_to_string(&path)?; let test = Test { name: name.clone(), text, }; match res.insert(name, (path, test)) { Some(old) => println!("Duplicate test: {:?}", old), None => (), } } Ok(res) } fn install_code_extension() -> Result<()> { run("cargo install --path crates/server --force", ".")?; run(r"npm install", "./code")?; run(r"./node_modules/vsce/out/vsce package", "./code")?; run(r"code --install-extension ./rcf-lsp-0.0.1.vsix", "./code")?; Ok(()) } fn run(cmdline: &'static str, dir: &str) -> Result<()> { eprintln!("\nwill run: {}", cmdline); let manifest_dir = env!("CARGO_MANIFEST_DIR"); let project_dir = Path::new(manifest_dir).ancestors().nth(2).unwrap().join(dir); let mut args = cmdline.split_whitespace(); let exec = args.next().unwrap(); let status = Command::new(exec) .args(args) .current_dir(project_dir) .status()?; if !status.success() { bail!("`{}` exited with {}", cmdline, status); } Ok(()) }