use crate::config::StarshipConfig; use crate::module::Module; use crate::modules; use clap::ArgMatches; use git2::{Repository, RepositoryState}; use once_cell::sync::OnceCell; use std::collections::{HashMap, HashSet}; use std::env; use std::fs; use std::path::{Path, PathBuf}; use std::string::String; use std::time::{Duration, SystemTime}; /// Context contains data or common methods that may be used by multiple modules. /// The data contained within Context will be relevant to this particular rendering /// of the prompt. pub struct Context<'a> { /// The deserialized configuration map from the user's `starship.toml` file. pub config: StarshipConfig, /// The current working directory that starship is being called in. pub current_dir: PathBuf, /// A struct containing directory contents in a lookup-optimised format. dir_contents: OnceCell, /// Properties to provide to modules. pub properties: HashMap<&'a str, String>, /// Private field to store Git information for modules who need it repo: OnceCell, /// The shell the user is assumed to be running pub shell: Shell, } impl<'a> Context<'a> { /// Identify the current working directory and create an instance of Context /// for it. pub fn new(arguments: ArgMatches) -> Context { // Retrieve the "path" flag. If unavailable, use the current directory instead. let path = arguments .value_of("path") .map(From::from) .unwrap_or_else(|| { env::var("PWD").map(PathBuf::from).unwrap_or_else(|err| { log::debug!("Unable to get path from $PWD: {}", err); env::current_dir().expect("Unable to identify current directory. Error") }) }); Context::new_with_dir(arguments, path) } /// Create a new instance of Context for the provided directory pub fn new_with_dir(arguments: ArgMatches, dir: T) -> Context where T: Into, { let config = StarshipConfig::initialize(); // Unwrap the clap arguments into a simple hashtable // we only care about single arguments at this point, there isn't a // use-case for a list of arguments yet. let properties: HashMap<&str, std::string::String> = arguments .args .iter() .filter(|(_, v)| !v.vals.is_empty()) .map(|(a, b)| (*a, b.vals.first().cloned().unwrap().into_string().unwrap())) .collect(); // TODO: Currently gets the physical directory. Get the logical directory. let current_dir = Context::expand_tilde(dir.into()); let shell = Context::get_shell(); Context { config, properties, current_dir, dir_contents: OnceCell::new(), repo: OnceCell::new(), shell, } } /// Convert a `~` in a path to the home directory fn expand_tilde(dir: PathBuf) -> PathBuf { if dir.starts_with("~") { let without_home = dir.strip_prefix("~").unwrap(); return dirs::home_dir().unwrap().join(without_home); } dir } /// Create a new module pub fn new_module(&self, name: &str) -> Module { let config = self.config.get_module_config(name); let desc = modules::description(name); Module::new(name, desc, config) } /// Check if `disabled` option of the module is true in configuration file. pub fn is_module_disabled_in_config(&self, name: &str) -> bool { let config = self.config.get_module_config(name); // If the segment has "disabled" set to "true", don't show it let disabled = config.and_then(|table| table.as_table()?.get("disabled")?.as_bool()); disabled == Some(true) } // returns a new ScanDir struct with reference to current dir_files of context // see ScanDir for methods pub fn try_begin_scan(&'a self) -> Option> { Some(ScanDir { dir_contents: self.dir_contents().ok()?, files: &[], folders: &[], extensions: &[], }) } /// Will lazily get repo root and branch when a module requests it. pub fn get_repo(&self) -> Result<&Repo, std::io::Error> { self.repo .get_or_try_init(|| -> Result { let repository = Repository::discover(&self.current_dir).ok(); let branch = repository .as_ref() .and_then(|repo| get_current_branch(repo)); let root = repository .as_ref() .and_then(|repo| repo.workdir().map(Path::to_path_buf)); let state = repository.as_ref().map(|repo| repo.state()); Ok(Repo { branch, root, state, }) }) } pub fn dir_contents(&self) -> Result<&DirContents, std::io::Error> { self.dir_contents.get_or_try_init(|| { let timeout = Duration::from_millis(self.config.get_root_config().scan_timeout); DirContents::from_path_with_timeout(&self.current_dir, timeout) }) } } #[derive(Debug)] pub struct DirContents { // HashSet of all files, no folders, relative to the base directory given at construction. files: HashSet, // HashSet of all file names, e.g. the last section without any folders, as strings. file_names: HashSet, // HashSet of all folders, relative to the base directory given at construction. folders: HashSet, // HashSet of all extensions found, without dots, e.g. "js" instead of ".js". extensions: HashSet, } impl DirContents { fn from_path(base: &PathBuf) -> Result { Self::from_path_with_timeout(base, Duration::from_secs(30)) } fn from_path_with_timeout(base: &PathBuf, timeout: Duration) -> Result { let start = SystemTime::now(); let mut folders: HashSet = HashSet::new(); let mut files: HashSet = HashSet::new(); let mut file_names: HashSet = HashSet::new(); let mut extensions: HashSet = HashSet::new(); fs::read_dir(base)? .take_while(|_| SystemTime::now().duration_since(start).unwrap() < timeout) .filter_map(Result::ok) .for_each(|entry| { let path = PathBuf::from(entry.path().strip_prefix(base).unwrap()); if entry.path().is_dir() { folders.insert(path); } else { if !path.to_string_lossy().starts_with('.') { path.extension() .map(|ext| extensions.insert(ext.to_string_lossy().to_string())); } if let Some(file_name) = path.file_name() { file_names.insert(file_name.to_string_lossy().to_string()); } files.insert(path); } }); log::trace!( "Building HashSets of directory files, folders and extensions took {:?}", SystemTime::now().duration_since(start).unwrap() ); Ok(DirContents { folders, files, file_names, extensions, }) } pub fn files(&self) -> impl Iterator { self.files.iter() } pub fn has_file(&self, path: &str) -> bool { self.files.contains(Path::new(path)) } pub fn has_file_name(&self, name: &str) -> bool { self.file_names.contains(name) } pub fn has_any_file_name(&self, names: &[&str]) -> bool { names.iter().any(|name| self.has_file_name(name)) } pub fn has_folder(&self, path: &str) -> bool { self.folders.contains(Path::new(path)) } pub fn has_any_folder(&self, paths: &[&str]) -> bool { paths.iter().any(|path| self.has_folder(path)) } pub fn has_extension(&self, ext: &str) -> bool { self.extensions.contains(ext) } pub fn has_any_extension(&self, exts: &[&str]) -> bool { exts.iter().any(|ext| self.has_extension(ext)) } fn get_shell() -> Shell { let shell = std::env::var("STARSHIP_SHELL").unwrap_or_default(); match shell.as_str() { "bash" => Shell::Bash, "fish" => Shell::Fish, "ion" => Shell::Ion, "powershell" => Shell::PowerShell, "zsh" => Shell::Zsh, _ => Shell::Unknown, } } } pub struct Repo { /// If `current_dir` is a git repository or is contained within one, /// this is the current branch name of that repo. pub branch: Option, /// If `current_dir` is a git repository or is contained within one, /// this is the path to the root of that repo. pub root: Option, /// State pub state: Option, } // A struct of Criteria which will be used to verify current PathBuf is // of X language, criteria can be set via the builder pattern pub struct ScanDir<'a> { dir_contents: &'a DirContents, files: &'a [&'a str], folders: &'a [&'a str], extensions: &'a [&'a str], } impl<'a> ScanDir<'a> { pub const fn set_files(mut self, files: &'a [&'a str]) -> Self { self.files = files; self } pub const fn set_extensions(mut self, extensions: &'a [&'a str]) -> Self { self.extensions = extensions; self } pub const fn set_folders(mut self, folders: &'a [&'a str]) -> Self { self.folders = folders; self } /// based on the current Pathbuf check to see /// if any of this criteria match or exist and returning a boolean pub fn is_match(&self) -> bool { self.dir_contents.has_any_extension(self.extensions) || self.dir_contents.has_any_folder(self.folders) || self.dir_contents.has_any_file_name(self.files) } } fn get_current_branch(repository: &Repository) -> Option { let head = repository.head().ok()?; let shorthand = head.shorthand(); shorthand.map(std::string::ToString::to_string) } #[derive(Debug, Clone, PartialEq)] pub enum Shell { Bash, Fish, Ion, PowerShell, Zsh, Unknown, } #[cfg(test)] mod tests { use super::*; fn testdir(paths: &[&str]) -> Result { let dir = tempfile::tempdir()?; for path in paths { let p = dir.path().join(Path::new(path)); if let Some(parent) = p.parent() { fs::create_dir_all(parent)?; } fs::File::create(p)?.sync_all()?; } Ok(dir) } #[test] fn test_scan_dir() -> Result<(), Box> { let empty = testdir(&[])?; let empty_dc = DirContents::from_path(&PathBuf::from(empty.path()))?; assert_eq!( ScanDir { dir_contents: &empty_dc, files: &["package.json"], extensions: &["js"], folders: &["node_modules"], } .is_match(), false ); let rust = testdir(&["README.md", "Cargo.toml", "src/main.rs"])?; let rust_dc = DirContents::from_path(&PathBuf::from(rust.path()))?; assert_eq!( ScanDir { dir_contents: &rust_dc, files: &["package.json"], extensions: &["js"], folders: &["node_modules"], } .is_match(), false ); let java = testdir(&["README.md", "src/com/test/Main.java", "pom.xml"])?; let java_dc = DirContents::from_path(&PathBuf::from(java.path()))?; assert_eq!( ScanDir { dir_contents: &java_dc, files: &["package.json"], extensions: &["js"], folders: &["node_modules"], } .is_match(), false ); let node = testdir(&["README.md", "node_modules/lodash/main.js", "package.json"])?; let node_dc = DirContents::from_path(&PathBuf::from(node.path()))?; assert_eq!( ScanDir { dir_contents: &node_dc, files: &["package.json"], extensions: &["js"], folders: &["node_modules"], } .is_match(), true ); Ok(()) } }