use crate::error::CommandError; use crate::ui::{ print_narrow_sparse_warnings, relative_paths, RelativePaths, Ui, }; use crate::utils::path_utils::RelativizePaths; use clap::Arg; use hg::filepatterns::parse_pattern_args; use hg::matchers::IntersectionMatcher; use hg::narrow; use hg::operations::list_revset_tracked_files; use hg::repo::Repo; use hg::utils::files::get_bytes_from_os_str; use hg::utils::filter_map_results; use hg::utils::hg_path::HgPath; use rayon::prelude::*; pub const HELP_TEXT: &str = " List tracked files. Returns 0 on success. "; pub fn args() -> clap::Command { clap::command!("files") .arg( Arg::new("rev") .help("search the repository as it is in REV") .short('r') .long("revision") .value_name("REV"), ) .arg( Arg::new("file") .value_parser(clap::value_parser!(std::ffi::OsString)) .help("show only these files") .action(clap::ArgAction::Append), ) .about(HELP_TEXT) } pub fn run(invocation: &crate::CliInvocation) -> Result<(), CommandError> { let relative_paths = match relative_paths(invocation.config)? { RelativePaths::Legacy => true, RelativePaths::Bool(v) => v, }; let args = invocation.subcommand_args; let rev = args.get_one::("rev"); let repo = invocation.repo?; // It seems better if this check is removed: this would correspond to // automatically enabling the extension if the repo requires it. // However we need this check to be in sync with vanilla hg so hg tests // pass. if repo.has_sparse() && invocation.config.get(b"extensions", b"sparse").is_none() { return Err(CommandError::unsupported( "repo is using sparse, but sparse extension is not enabled", )); } let (matcher, narrow_warnings) = narrow::matcher(repo)?; print_narrow_sparse_warnings(&narrow_warnings, &[], invocation.ui, repo)?; let matcher = match args.get_many::("file") { None => matcher, Some(files) => { let patterns: Vec> = files .filter(|s| !s.is_empty()) .map(get_bytes_from_os_str) .collect(); for file in &patterns { if file.starts_with(b"set:") { return Err(CommandError::unsupported("fileset")); } } let cwd = hg::utils::current_dir()?; let root = repo.working_directory_path(); let ignore_patterns = parse_pattern_args(patterns, &cwd, root)?; let files_matcher = hg::matchers::PatternMatcher::new(ignore_patterns)?; Box::new(IntersectionMatcher::new( Box::new(files_matcher), matcher, )) } }; if let Some(rev) = rev { let files = list_revset_tracked_files(repo, rev, matcher)?; display_files( invocation.ui, repo, relative_paths, files.iter().map::, _>(|f| { let (f, _, _) = f?; Ok(f) }), ) } else { // The dirstate always reflects the sparse narrowspec. let dirstate = repo.dirstate_map()?; let files_res: Result, _> = filter_map_results(dirstate.iter(), |(path, entry)| { Ok(if entry.tracked() && matcher.matches(path) { Some(path) } else { None }) }) .collect(); let mut files = files_res?; files.par_sort_unstable(); display_files( invocation.ui, repo, relative_paths, files.into_iter().map::, _>(Ok), ) } } fn display_files<'a, E>( ui: &Ui, repo: &Repo, relative_paths: bool, files: impl IntoIterator>, ) -> Result<(), CommandError> where CommandError: From, { let mut stdout = ui.stdout_buffer(); let mut any = false; let relativize = RelativizePaths::new(repo)?; for result in files { let path = result?; if relative_paths { stdout.write_all(&relativize.relativize(path))?; } else { stdout.write_all(path.as_bytes())?; } stdout.write_all(b"\n")?; any = true; } stdout.flush()?; if any { Ok(()) } else { Err(CommandError::Unsuccessful) } }