pub use encoding_rs as encoding; pub mod auto_pairs; pub mod chars; pub mod comment; pub mod diagnostic; pub mod diff; pub mod graphemes; pub mod history; pub mod increment; pub mod indent; pub mod line_ending; pub mod macros; pub mod match_brackets; pub mod movement; pub mod object; pub mod path; mod position; pub mod register; pub mod search; pub mod selection; pub mod shellwords; mod state; pub mod surround; pub mod syntax; pub mod textobject; mod transaction; pub mod unicode { pub use unicode_general_category as category; pub use unicode_segmentation as segmentation; pub use unicode_width as width; } static RUNTIME_DIR: once_cell::sync::Lazy = once_cell::sync::Lazy::new(runtime_dir); pub fn find_first_non_whitespace_char(line: RopeSlice) -> Option { line.chars().position(|ch| !ch.is_whitespace()) } /// Find project root. /// /// Order of detection: /// * Top-most folder containing a root marker in current git repository /// * Git repostory root if no marker detected /// * Top-most folder containing a root marker if not git repository detected /// * Current working directory as fallback pub fn find_root(root: Option<&str>, root_markers: &[String]) -> Option { let current_dir = std::env::current_dir().expect("unable to determine current directory"); let root = match root { Some(root) => { let root = std::path::Path::new(root); if root.is_absolute() { root.to_path_buf() } else { current_dir.join(root) } } None => current_dir.clone(), }; let mut top_marker = None; for ancestor in root.ancestors() { for marker in root_markers { if ancestor.join(marker).exists() { top_marker = Some(ancestor); break; } } // don't go higher than repo if ancestor.join(".git").is_dir() { // Use workspace if detected from marker return Some(top_marker.unwrap_or(ancestor).to_path_buf()); } } // In absence of git repo, use workspace if detected if top_marker.is_some() { top_marker.map(|a| a.to_path_buf()) } else { Some(current_dir) } } pub fn runtime_dir() -> std::path::PathBuf { if let Ok(dir) = std::env::var("HELIX_RUNTIME") { return dir.into(); } const RT_DIR: &str = "runtime"; let conf_dir = config_dir().join(RT_DIR); if conf_dir.exists() { return conf_dir; } 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 return std::path::PathBuf::from(dir).parent().unwrap().join(RT_DIR); } // fallback to location of the executable being run std::env::current_exe() .ok() .and_then(|path| path.parent().map(|path| path.to_path_buf().join(RT_DIR))) .unwrap() } pub fn config_dir() -> std::path::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() -> std::path::PathBuf { // TODO: allow env var override let strategy = choose_base_strategy().expect("Unable to find the config directory!"); let mut path = strategy.cache_dir(); path.push("helix"); path } // right overrides left pub fn merge_toml_values(left: toml::Value, right: toml::Value) -> 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)) => { 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), None => rvalue, }; left_items.push(mvalue); } Value::Array(left_items) } (Value::Table(mut left_map), Value::Table(right_map)) => { for (rname, rvalue) in right_map { match left_map.remove(&rname) { Some(lvalue) => { let merged_value = merge_toml_values(lvalue, rvalue); left_map.insert(rname, merged_value); } None => { left_map.insert(rname, rvalue); } } } Value::Table(left_map) } // Catch everything else we didn't handle, and use the right value (_, value) => value, } } #[cfg(test)] mod merge_toml_tests { use super::merge_toml_values; #[test] fn language_tomls() { use toml::Value; const USER: &str = " [[language]] name = \"nix\" test = \"bbb\" indent = { tab-width = 4, unit = \" \", test = \"aaa\" } "; let base: Value = toml::from_slice(include_bytes!("../../languages.toml")) .expect("Couldn't parse built-in languages config"); let user: Value = toml::from_str(USER).unwrap(); let merged = merge_toml_values(base, user); 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(), "#"); } } pub use etcetera::home_dir; use etcetera::base_strategy::{choose_base_strategy, BaseStrategy}; pub use ropey::{Rope, RopeBuilder, RopeSlice}; // pub use tendril::StrTendril as Tendril; pub use smartstring::SmartString; pub type Tendril = SmartString; #[doc(inline)] pub use {regex, tree_sitter}; pub use graphemes::RopeGraphemes; pub use position::{coords_at_pos, pos_at_coords, visual_coords_at_pos, Position}; pub use selection::{Range, Selection}; pub use smallvec::{smallvec, SmallVec}; pub use syntax::Syntax; pub use diagnostic::Diagnostic; pub use state::State; pub use line_ending::{LineEnding, DEFAULT_LINE_ENDING}; pub use transaction::{Assoc, Change, ChangeSet, Operation, Transaction};