pub mod config; pub mod grammar; use helix_stdx::{env::current_working_dir, path}; use etcetera::base_strategy::{choose_base_strategy, BaseStrategy}; use std::path::{Path, PathBuf}; pub const VERSION_AND_GIT_HASH: &str = env!("VERSION_AND_GIT_HASH"); static RUNTIME_DIRS: once_cell::sync::Lazy> = once_cell::sync::Lazy::new(prioritize_runtime_dirs); static CONFIG_FILE: once_cell::sync::OnceCell = once_cell::sync::OnceCell::new(); static LOG_FILE: once_cell::sync::OnceCell = once_cell::sync::OnceCell::new(); pub fn initialize_config_file(specified_file: Option) { let config_file = specified_file.unwrap_or_else(default_config_file); ensure_parent_dir(&config_file); CONFIG_FILE.set(config_file).ok(); } pub fn initialize_log_file(specified_file: Option) { let log_file = specified_file.unwrap_or_else(default_log_file); ensure_parent_dir(&log_file); LOG_FILE.set(log_file).ok(); } /// A list of runtime directories from highest to lowest priority /// /// The priority is: /// /// 1. sibling directory to `CARGO_MANIFEST_DIR` (if environment variable is set) /// 2. subdirectory of user config directory (always included) /// 3. `HELIX_RUNTIME` (if environment variable is set) /// 4. `HELIX_DEFAULT_RUNTIME` (if environment variable is set *at build time*) /// 5. subdirectory of path to helix executable (always included) /// /// Postcondition: returns at least two paths (they might not exist). fn prioritize_runtime_dirs() -> Vec { const RT_DIR: &str = "runtime"; // Adding higher priority first let mut rt_dirs = Vec::new(); if let Ok(dir) = std::env::var("CARGO_MANIFEST_DIR") { // this is the directory of the crate being run by cargo, we need the workspace path so we take the parent let path = PathBuf::from(dir).parent().unwrap().join(RT_DIR); log::debug!("runtime dir: {}", path.to_string_lossy()); rt_dirs.push(path); } let conf_rt_dir = config_dir().join(RT_DIR); rt_dirs.push(conf_rt_dir); if let Ok(dir) = std::env::var("HELIX_RUNTIME") { let dir = path::expand_tilde(Path::new(&dir)); rt_dirs.push(path::normalize(dir)); } // If this variable is set during build time, it will always be included // in the lookup list. This allows downstream packagers to set a fallback // directory to a location that is conventional on their distro so that they // need not resort to a wrapper script or a global environment variable. if let Some(dir) = std::option_env!("HELIX_DEFAULT_RUNTIME") { rt_dirs.push(dir.into()); } // fallback to location of the executable being run // canonicalize the path in case the executable is symlinked let exe_rt_dir = std::env::current_exe() .ok() .and_then(|path| std::fs::canonicalize(path).ok()) .and_then(|path| path.parent().map(|path| path.to_path_buf().join(RT_DIR))) .unwrap(); rt_dirs.push(exe_rt_dir); rt_dirs } /// Runtime directories ordered from highest to lowest priority /// /// All directories should be checked when looking for files. /// /// Postcondition: returns at least one path (it might not exist). pub fn runtime_dirs() -> &'static [PathBuf] { &RUNTIME_DIRS } /// Find file with path relative to runtime directory /// /// `rel_path` should be the relative path from within the `runtime/` directory. /// The valid runtime directories are searched in priority order and the first /// file found to exist is returned, otherwise None. fn find_runtime_file(rel_path: &Path) -> Option { RUNTIME_DIRS.iter().find_map(|rt_dir| { let path = rt_dir.join(rel_path); if path.exists() { Some(path) } else { None } }) } /// Find file with path relative to runtime directory /// /// `rel_path` should be the relative path from within the `runtime/` directory. /// The valid runtime directories are searched in priority order and the first /// file found to exist is returned, otherwise the path to the final attempt /// that failed. pub fn runtime_file(rel_path: &Path) -> PathBuf { find_runtime_file(rel_path).unwrap_or_else(|| { RUNTIME_DIRS .last() .map(|dir| dir.join(rel_path)) .unwrap_or_default() }) } pub fn config_dir() -> PathBuf { // TODO: allow env var override let strategy = choose_base_strategy().expect("Unable to find the config directory!"); let mut path = strategy.config_dir(); path.push("helix"); path } pub fn cache_dir() -> PathBuf { // TODO: allow env var override let strategy = choose_base_strategy().expect("Unable to find the cache directory!"); let mut path = strategy.cache_dir(); path.push("helix"); path } pub fn config_file() -> PathBuf { CONFIG_FILE.get().map(|path| path.to_path_buf()).unwrap() } pub fn log_file() -> PathBuf { LOG_FILE.get().map(|path| path.to_path_buf()).unwrap() } pub fn workspace_config_file() -> PathBuf { find_workspace().0.join(".helix").join("config.toml") } pub fn lang_config_file() -> PathBuf { config_dir().join("languages.toml") } pub fn default_log_file() -> PathBuf { cache_dir().join("helix.log") } /// Merge two TOML documents, merging values from `right` onto `left` /// /// When an array exists in both `left` and `right`, `right`'s array is /// used. When a table exists in both `left` and `right`, the merged table /// consists of all keys in `left`'s table unioned with all keys in `right` /// with the values of `right` being merged recursively onto values of /// `left`. /// /// `merge_toplevel_arrays` controls whether a top-level array in the TOML /// document is merged instead of overridden. This is useful for TOML /// documents that use a top-level array of values like the `languages.toml`, /// where one usually wants to override or add to the array instead of /// replacing it altogether. pub fn merge_toml_values(left: toml::Value, right: toml::Value, merge_depth: usize) -> toml::Value { use toml::Value; fn get_name(v: &Value) -> Option<&str> { v.get("name").and_then(Value::as_str) } match (left, right) { (Value::Array(mut left_items), Value::Array(right_items)) => { // The top-level arrays should be merged but nested arrays should // act as overrides. For the `languages.toml` config, this means // that you can specify a sub-set of languages in an overriding // `languages.toml` but that nested arrays like Language Server // arguments are replaced instead of merged. if merge_depth > 0 { left_items.reserve(right_items.len()); for rvalue in right_items { let lvalue = get_name(&rvalue) .and_then(|rname| { left_items.iter().position(|v| get_name(v) == Some(rname)) }) .map(|lpos| left_items.remove(lpos)); let mvalue = match lvalue { Some(lvalue) => merge_toml_values(lvalue, rvalue, merge_depth - 1), None => rvalue, }; left_items.push(mvalue); } Value::Array(left_items) } else { Value::Array(right_items) } } (Value::Table(mut left_map), Value::Table(right_map)) => { if merge_depth > 0 { for (rname, rvalue) in right_map { match left_map.remove(&rname) { Some(lvalue) => { let merged_value = merge_toml_values(lvalue, rvalue, merge_depth - 1); left_map.insert(rname, merged_value); } None => { left_map.insert(rname, rvalue); } } } Value::Table(left_map) } else { Value::Table(right_map) } } // Catch everything else we didn't handle, and use the right value (_, value) => value, } } /// Finds the current workspace folder. /// Used as a ceiling dir for LSP root resolution, the filepicker and potentially as a future filewatching root /// /// This function starts searching the FS upward from the CWD /// and returns the first directory that contains either `.git`, `.svn`, `.jj` or `.helix`. /// If no workspace was found returns (CWD, true). /// Otherwise (workspace, false) is returned pub fn find_workspace() -> (PathBuf, bool) { let current_dir = current_working_dir(); for ancestor in current_dir.ancestors() { if ancestor.join(".git").exists() || ancestor.join(".svn").exists() || ancestor.join(".jj").exists() || ancestor.join(".helix").exists() { return (ancestor.to_owned(), false); } } (current_dir, true) } fn default_config_file() -> PathBuf { config_dir().join("config.toml") } fn ensure_parent_dir(path: &Path) { if let Some(parent) = path.parent() { if !parent.exists() { std::fs::create_dir_all(parent).ok(); } } } #[cfg(test)] mod merge_toml_tests { use std::str; use super::merge_toml_values; use toml::Value; #[test] fn language_toml_map_merges() { const USER: &str = r#" [[language]] name = "nix" test = "bbb" indent = { tab-width = 4, unit = " ", test = "aaa" } "#; let base = include_bytes!("../../languages.toml"); let base = str::from_utf8(base).expect("Couldn't parse built-in languages config"); let base: Value = toml::from_str(base).expect("Couldn't parse built-in languages config"); let user: Value = toml::from_str(USER).unwrap(); let merged = merge_toml_values(base, user, 3); let languages = merged.get("language").unwrap().as_array().unwrap(); let nix = languages .iter() .find(|v| v.get("name").unwrap().as_str().unwrap() == "nix") .unwrap(); let nix_indent = nix.get("indent").unwrap(); // We changed tab-width and unit in indent so check them if they are the new values assert_eq!( nix_indent.get("tab-width").unwrap().as_integer().unwrap(), 4 ); assert_eq!(nix_indent.get("unit").unwrap().as_str().unwrap(), " "); // We added a new keys, so check them assert_eq!(nix.get("test").unwrap().as_str().unwrap(), "bbb"); assert_eq!(nix_indent.get("test").unwrap().as_str().unwrap(), "aaa"); // We didn't change comment-token so it should be same assert_eq!(nix.get("comment-token").unwrap().as_str().unwrap(), "#"); } #[test] fn language_toml_nested_array_merges() { const USER: &str = r#" [[language]] name = "typescript" language-server = { command = "deno", args = ["lsp"] } "#; let base = include_bytes!("../../languages.toml"); let base = str::from_utf8(base).expect("Couldn't parse built-in languages config"); let base: Value = toml::from_str(base).expect("Couldn't parse built-in languages config"); let user: Value = toml::from_str(USER).unwrap(); let merged = merge_toml_values(base, user, 3); let languages = merged.get("language").unwrap().as_array().unwrap(); let ts = languages .iter() .find(|v| v.get("name").unwrap().as_str().unwrap() == "typescript") .unwrap(); assert_eq!( ts.get("language-server") .unwrap() .get("args") .unwrap() .as_array() .unwrap(), &vec![Value::String("lsp".into())] ) } }