use crate::config::Config; use crate::module::Module; use clap::ArgMatches; use git2::Repository; use std::env; use std::ffi::OsStr; use std::fs; use std::path::PathBuf; pub struct Context<'a> { pub config: Config, pub current_dir: PathBuf, pub dir_files: Vec, pub arguments: ArgMatches<'a>, pub repo_root: Option, pub branch_name: Option, } impl<'a> Context<'a> { pub fn new(arguments: ArgMatches) -> Context { // Retreive the "path" flag. If unavailable, use the current directory instead. let path = arguments .value_of("path") .map(From::from) .unwrap_or_else(|| env::current_dir().expect("Unable to identify current directory.")); Context::new_with_dir(arguments, path) } pub fn new_with_dir(arguments: ArgMatches, dir: T) -> Context where T: Into, { let config = Config::initialize(); // TODO: Currently gets the physical directory. Get the logical directory. let current_dir = Context::expand_tilde(dir.into()); let dir_files = fs::read_dir(¤t_dir) .unwrap_or_else(|_| { panic!( "Unable to read current directory: {}", current_dir.to_string_lossy() ) }) .filter_map(Result::ok) .map(|entry| entry.path()) .collect::>(); let repository = Repository::discover(¤t_dir).ok(); let repo_root = repository .as_ref() .and_then(|repo| repo.workdir().map(|repo| repo.to_path_buf())); let branch_name = repository .as_ref() .and_then(|repo| get_current_branch(&repo)); Context { config, arguments, current_dir, dir_files, repo_root, branch_name, } } /// 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 } pub fn new_module(&self, name: &str) -> Module { Module::new(name, self.config.get_module_config(name)) } // returns a new ScanDir struct with reference to current dir_files of context // see ScanDir for methods pub fn new_scan_dir(&'a self) -> ScanDir<'a> { ScanDir { dir_files: self.dir_files.as_ref(), files: &[], folders: &[], extensions: &[], } } } // 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_files: &'a Vec, // Replace with reference files: &'a [&'a str], folders: &'a [&'a str], extensions: &'a [&'a str], } impl<'a> ScanDir<'a> { pub fn set_files(mut self, files: &'a [&'a str]) -> Self { self.files = files; self } pub fn set_extensions(mut self, extensions: &'a [&'a str]) -> Self { self.extensions = extensions; self } pub 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 scan(&mut self) -> bool { self.dir_files.iter().any(|path| { if path.is_dir() { return path_has_name(&path, &self.folders); } else { return path_has_name(&path, &self.files) || has_extension(&path, &self.extensions); } }) } } /// checks to see if the pathbuf matches a file or folder name pub fn path_has_name<'a>(dir_entry: &PathBuf, names: &'a [&'a str]) -> bool { let found_file_or_folder_name = names.into_iter().find(|file_or_folder_name| { dir_entry .file_name() .and_then(OsStr::to_str) .unwrap_or_default() == **file_or_folder_name }); match found_file_or_folder_name { Some(name) => !name.is_empty(), None => false, } } /// checks if pathbuf matches the extension provided pub fn has_extension<'a>(dir_entry: &PathBuf, extensions: &'a [&'a str]) -> bool { let found_ext = extensions.into_iter().find(|ext| { dir_entry .extension() .and_then(OsStr::to_str) .unwrap_or_default() == **ext }); match found_ext { Some(extension) => !extension.is_empty(), None => false, } } fn get_current_branch(repository: &Repository) -> Option { let head = repository.head().ok()?; let shorthand = head.shorthand(); shorthand.map(|branch| branch.to_string()) } #[cfg(test)] mod tests { use super::*; #[test] fn test_path_has_name() { let mut buf = PathBuf::from("/"); let files = vec!["package.json"]; assert_eq!(path_has_name(&buf, &files), false); buf.set_file_name("some-file.js"); assert_eq!(path_has_name(&buf, &files), false); buf.set_file_name("package.json"); assert_eq!(path_has_name(&buf, &files), true); } #[test] fn test_has_extension() { let mut buf = PathBuf::from("/"); let extensions = vec!["js"]; assert_eq!(has_extension(&buf, &extensions), false); buf.set_file_name("some-file.rs"); assert_eq!(has_extension(&buf, &extensions), false); buf.set_file_name("some-file.js"); assert_eq!(has_extension(&buf, &extensions), true) } #[test] fn test_criteria_scan_fails() { let mut failing_criteria = ScanDir { dir_files: &vec![PathBuf::new()], files: &["package.json"], extensions: &["js"], folders: &["node_modules"], }; // fails if buffer does not match any criteria assert_eq!(failing_criteria.scan(), false); let mut failing_dir_criteria = ScanDir { dir_files: &vec![PathBuf::from("/package.js/dog.go")], files: &["package.json"], extensions: &["js"], folders: &["node_modules"], }; // fails when passed a pathbuf dir matches extension path assert_eq!(failing_dir_criteria.scan(), false); } #[test] fn test_criteria_scan_passes() { let mut passing_criteria = ScanDir { dir_files: &vec![PathBuf::from("package.json")], files: &["package.json"], extensions: &["js"], folders: &["node_modules"], }; assert_eq!(passing_criteria.scan(), true); } }