// Copyright 2018-2022 the Deno authors. All rights reserved. MIT license. //! This module provides file formatting utilities using //! [`dprint-plugin-typescript`](https://github.com/dprint/dprint-plugin-typescript). //! //! At the moment it is only consumed using CLI but in //! the future it can be easily extended to provide //! the same functions as ops available in JS runtime. use crate::colors; use crate::config_file::FmtConfig; use crate::config_file::FmtOptionsConfig; use crate::config_file::ProseWrap; use crate::deno_dir::DenoDir; use crate::diff::diff; use crate::file_watcher; use crate::file_watcher::ResolutionResult; use crate::flags::Flags; use crate::flags::FmtFlags; use crate::fs_util::collect_files; use crate::fs_util::get_extension; use crate::fs_util::specifier_to_file_path; use crate::text_encoding; use deno_ast::ParsedSource; use deno_core::anyhow::bail; use deno_core::anyhow::Context; use deno_core::error::generic_error; use deno_core::error::AnyError; use deno_core::futures; use deno_core::parking_lot::Mutex; use log::debug; use log::info; use std::fs; use std::io::stdin; use std::io::stdout; use std::io::Read; use std::io::Write; use std::path::Path; use std::path::PathBuf; use std::sync::atomic::AtomicUsize; use std::sync::atomic::Ordering; use std::sync::Arc; use super::incremental_cache::IncrementalCache; /// Format JavaScript/TypeScript files. pub async fn format( flags: &Flags, fmt_flags: FmtFlags, maybe_fmt_config: Option, deno_dir: &DenoDir, ) -> Result<(), AnyError> { let FmtFlags { files, ignore, check, .. } = fmt_flags.clone(); // First, prepare final configuration. // Collect included and ignored files. CLI flags take precendence // over config file, ie. if there's `files.ignore` in config file // and `--ignore` CLI flag, only the flag value is taken into account. let mut include_files = files.clone(); let mut exclude_files = ignore; if let Some(fmt_config) = maybe_fmt_config.as_ref() { if include_files.is_empty() { include_files = fmt_config .files .include .iter() .filter_map(|s| specifier_to_file_path(s).ok()) .collect::>(); } if exclude_files.is_empty() { exclude_files = fmt_config .files .exclude .iter() .filter_map(|s| specifier_to_file_path(s).ok()) .collect::>(); } } if include_files.is_empty() { include_files = [std::env::current_dir()?].to_vec(); } // Now do the same for options let fmt_options = resolve_fmt_options( &fmt_flags, maybe_fmt_config.map(|c| c.options).unwrap_or_default(), ); let fmt_predicate = |path: &Path| is_supported_ext_fmt(path) && !is_contain_git(path); let resolver = |changed: Option>| { let files_changed = changed.is_some(); let result = collect_files(&include_files, &exclude_files, fmt_predicate) .map(|files| { let refmt_files = if let Some(paths) = changed { if check { files .iter() .any(|path| paths.contains(path)) .then(|| files) .unwrap_or_else(|| [].to_vec()) } else { files .into_iter() .filter(|path| paths.contains(path)) .collect::>() } } else { files }; (refmt_files, fmt_options.clone()) }); let paths_to_watch = include_files.clone(); async move { if files_changed && matches!(result, Ok((ref files, _)) if files.is_empty()) { ResolutionResult::Ignore } else { ResolutionResult::Restart { paths_to_watch, result, } } } }; let operation = |(paths, fmt_options): (Vec, FmtOptionsConfig)| async move { let incremental_cache = Arc::new(IncrementalCache::new( &deno_dir.fmt_incremental_cache_db_file_path(), &fmt_options, &paths, )); if check { check_source_files(paths, fmt_options, incremental_cache.clone()).await?; } else { format_source_files(paths, fmt_options, incremental_cache.clone()) .await?; } incremental_cache.wait_completion().await; Ok(()) }; if flags.watch.is_some() { file_watcher::watch_func( resolver, operation, file_watcher::PrintConfig { job_name: "Fmt".to_string(), clear_screen: !flags.no_clear_screen, }, ) .await?; } else { let files = collect_files(&include_files, &exclude_files, fmt_predicate) .and_then(|files| { if files.is_empty() { Err(generic_error("No target files found.")) } else { Ok(files) } })?; operation((files, fmt_options.clone())).await?; } Ok(()) } /// Formats markdown (using ) and its code blocks /// (ts/tsx, js/jsx). fn format_markdown( file_text: &str, fmt_options: &FmtOptionsConfig, ) -> Result, AnyError> { let markdown_config = get_resolved_markdown_config(fmt_options); dprint_plugin_markdown::format_text( file_text, &markdown_config, move |tag, text, line_width| { let tag = tag.to_lowercase(); if matches!( tag.as_str(), "ts" | "tsx" | "js" | "jsx" | "javascript" | "typescript" | "json" | "jsonc" ) { // It's important to tell dprint proper file extension, otherwise // it might parse the file twice. let extension = match tag.as_str() { "javascript" => "js", "typescript" => "ts", rest => rest, }; if matches!(extension, "json" | "jsonc") { let mut json_config = get_resolved_json_config(fmt_options); json_config.line_width = line_width; dprint_plugin_json::format_text(text, &json_config) } else { let fake_filename = PathBuf::from(format!("deno_fmt_stdin.{}", extension)); let mut codeblock_config = get_resolved_typescript_config(fmt_options); codeblock_config.line_width = line_width; dprint_plugin_typescript::format_text( &fake_filename, text, &codeblock_config, ) } } else { Ok(None) } }, ) } /// Formats JSON and JSONC using the rules provided by .deno() /// of configuration builder of . /// See for configuration. pub fn format_json( file_text: &str, fmt_options: &FmtOptionsConfig, ) -> Result, AnyError> { let config = get_resolved_json_config(fmt_options); dprint_plugin_json::format_text(file_text, &config) } /// Formats a single TS, TSX, JS, JSX, JSONC, JSON, or MD file. pub fn format_file( file_path: &Path, file_text: &str, fmt_options: &FmtOptionsConfig, ) -> Result, AnyError> { let ext = get_extension(file_path).unwrap_or_default(); if matches!( ext.as_str(), "md" | "mkd" | "mkdn" | "mdwn" | "mdown" | "markdown" ) { format_markdown(file_text, fmt_options) } else if matches!(ext.as_str(), "json" | "jsonc") { format_json(file_text, fmt_options) } else { let config = get_resolved_typescript_config(fmt_options); dprint_plugin_typescript::format_text(file_path, file_text, &config) } } pub fn format_parsed_source( parsed_source: &ParsedSource, fmt_options: FmtOptionsConfig, ) -> Result, AnyError> { dprint_plugin_typescript::format_parsed_source( parsed_source, &get_resolved_typescript_config(&fmt_options), ) } async fn check_source_files( paths: Vec, fmt_options: FmtOptionsConfig, incremental_cache: Arc, ) -> Result<(), AnyError> { let not_formatted_files_count = Arc::new(AtomicUsize::new(0)); let checked_files_count = Arc::new(AtomicUsize::new(0)); // prevent threads outputting at the same time let output_lock = Arc::new(Mutex::new(0)); run_parallelized(paths, { let not_formatted_files_count = not_formatted_files_count.clone(); let checked_files_count = checked_files_count.clone(); move |file_path| { checked_files_count.fetch_add(1, Ordering::Relaxed); let file_text = read_file_contents(&file_path)?.text; // skip checking the file if we know it's formatted if incremental_cache.is_file_same(&file_path, &file_text) { return Ok(()); } match format_file(&file_path, &file_text, &fmt_options) { Ok(Some(formatted_text)) => { not_formatted_files_count.fetch_add(1, Ordering::Relaxed); let _g = output_lock.lock(); let diff = diff(&file_text, &formatted_text); info!(""); info!("{} {}:", colors::bold("from"), file_path.display()); info!("{}", diff); } Ok(None) => { // When checking formatting, only update the incremental cache when // the file is the same since we don't bother checking for stable // formatting here. Additionally, ensure this is done during check // so that CIs that cache the DENO_DIR will get the benefit of // incremental formatting incremental_cache.update_file(&file_path, &file_text); } Err(e) => { let _g = output_lock.lock(); eprintln!("Error checking: {}", file_path.to_string_lossy()); eprintln!(" {}", e); } } Ok(()) } }) .await?; let not_formatted_files_count = not_formatted_files_count.load(Ordering::Relaxed); let checked_files_count = checked_files_count.load(Ordering::Relaxed); let checked_files_str = format!("{} {}", checked_files_count, files_str(checked_files_count)); if not_formatted_files_count == 0 { info!("Checked {}", checked_files_str); Ok(()) } else { let not_formatted_files_str = files_str(not_formatted_files_count); Err(generic_error(format!( "Found {} not formatted {} in {}", not_formatted_files_count, not_formatted_files_str, checked_files_str, ))) } } async fn format_source_files( paths: Vec, fmt_options: FmtOptionsConfig, incremental_cache: Arc, ) -> Result<(), AnyError> { let formatted_files_count = Arc::new(AtomicUsize::new(0)); let checked_files_count = Arc::new(AtomicUsize::new(0)); let output_lock = Arc::new(Mutex::new(0)); // prevent threads outputting at the same time run_parallelized(paths, { let formatted_files_count = formatted_files_count.clone(); let checked_files_count = checked_files_count.clone(); move |file_path| { checked_files_count.fetch_add(1, Ordering::Relaxed); let file_contents = read_file_contents(&file_path)?; // skip formatting the file if we know it's formatted if incremental_cache.is_file_same(&file_path, &file_contents.text) { return Ok(()); } match format_ensure_stable( &file_path, &file_contents.text, &fmt_options, format_file, ) { Ok(Some(formatted_text)) => { incremental_cache.update_file(&file_path, &formatted_text); write_file_contents( &file_path, FileContents { had_bom: file_contents.had_bom, text: formatted_text, }, )?; formatted_files_count.fetch_add(1, Ordering::Relaxed); let _g = output_lock.lock(); info!("{}", file_path.to_string_lossy()); } Ok(None) => { incremental_cache.update_file(&file_path, &file_contents.text); } Err(e) => { let _g = output_lock.lock(); eprintln!("Error formatting: {}", file_path.to_string_lossy()); eprintln!(" {}", e); } } Ok(()) } }) .await?; let formatted_files_count = formatted_files_count.load(Ordering::Relaxed); debug!( "Formatted {} {}", formatted_files_count, files_str(formatted_files_count), ); let checked_files_count = checked_files_count.load(Ordering::Relaxed); info!( "Checked {} {}", checked_files_count, files_str(checked_files_count) ); Ok(()) } /// When storing any formatted text in the incremental cache, we want /// to ensure that anything stored when formatted will have itself as /// the output as well. This is to prevent "double format" issues where /// a user formats their code locally and it fails on the CI afterwards. fn format_ensure_stable( file_path: &Path, file_text: &str, fmt_options: &FmtOptionsConfig, fmt_func: impl Fn( &Path, &str, &FmtOptionsConfig, ) -> Result, AnyError>, ) -> Result, AnyError> { let formatted_text = fmt_func(file_path, file_text, fmt_options)?; match formatted_text { Some(mut current_text) => { let mut count = 0; loop { match fmt_func(file_path, ¤t_text, fmt_options) { Ok(Some(next_pass_text)) => { // just in case if next_pass_text == current_text { return Ok(Some(next_pass_text)); } current_text = next_pass_text; } Ok(None) => { return Ok(Some(current_text)); } Err(err) => { panic!( concat!( "Formatting succeeded initially, but failed when ensuring a ", "stable format. This indicates a bug in the formatter where ", "the text it produces is not syntatically correct. As a temporary ", "workfaround you can ignore this file.\n\n{:#}" ), err, ) } } count += 1; if count == 5 { panic!( concat!( "Formatting not stable. Bailed after {} tries. This indicates a bug ", "in the formatter where it formats the file differently each time. As a ", "temporary workaround you can ignore this file." ), count ) } } } None => Ok(None), } } /// Format stdin and write result to stdout. /// Treats input as TypeScript or as set by `--ext` flag. /// Compatible with `--check` flag. pub fn format_stdin( fmt_flags: FmtFlags, fmt_options: FmtOptionsConfig, ) -> Result<(), AnyError> { let mut source = String::new(); if stdin().read_to_string(&mut source).is_err() { bail!("Failed to read from stdin"); } let file_path = PathBuf::from(format!("_stdin.{}", fmt_flags.ext)); let fmt_options = resolve_fmt_options(&fmt_flags, fmt_options); let formatted_text = format_file(&file_path, &source, &fmt_options)?; if fmt_flags.check { if formatted_text.is_some() { println!("Not formatted stdin"); } } else { stdout().write_all(formatted_text.unwrap_or(source).as_bytes())?; } Ok(()) } fn files_str(len: usize) -> &'static str { if len <= 1 { "file" } else { "files" } } fn resolve_fmt_options( fmt_flags: &FmtFlags, options: FmtOptionsConfig, ) -> FmtOptionsConfig { let mut options = options; if let Some(use_tabs) = fmt_flags.use_tabs { options.use_tabs = Some(use_tabs); } if let Some(line_width) = fmt_flags.line_width { options.line_width = Some(line_width.get()); } if let Some(indent_width) = fmt_flags.indent_width { options.indent_width = Some(indent_width.get()); } if let Some(single_quote) = fmt_flags.single_quote { options.single_quote = Some(single_quote); } if let Some(prose_wrap) = &fmt_flags.prose_wrap { options.prose_wrap = Some(match prose_wrap.as_str() { "always" => ProseWrap::Always, "never" => ProseWrap::Never, "preserve" => ProseWrap::Preserve, // validators in `flags.rs` makes other values unreachable _ => unreachable!(), }); } options } fn get_resolved_typescript_config( options: &FmtOptionsConfig, ) -> dprint_plugin_typescript::configuration::Configuration { let mut builder = dprint_plugin_typescript::configuration::ConfigurationBuilder::new(); builder.deno(); if let Some(use_tabs) = options.use_tabs { builder.use_tabs(use_tabs); } if let Some(line_width) = options.line_width { builder.line_width(line_width); } if let Some(indent_width) = options.indent_width { builder.indent_width(indent_width); } if let Some(single_quote) = options.single_quote { if single_quote { builder.quote_style( dprint_plugin_typescript::configuration::QuoteStyle::AlwaysSingle, ); } } builder.build() } fn get_resolved_markdown_config( options: &FmtOptionsConfig, ) -> dprint_plugin_markdown::configuration::Configuration { let mut builder = dprint_plugin_markdown::configuration::ConfigurationBuilder::new(); builder.deno(); if let Some(line_width) = options.line_width { builder.line_width(line_width); } if let Some(prose_wrap) = options.prose_wrap { builder.text_wrap(match prose_wrap { ProseWrap::Always => { dprint_plugin_markdown::configuration::TextWrap::Always } ProseWrap::Never => { dprint_plugin_markdown::configuration::TextWrap::Never } ProseWrap::Preserve => { dprint_plugin_markdown::configuration::TextWrap::Maintain } }); } builder.build() } fn get_resolved_json_config( options: &FmtOptionsConfig, ) -> dprint_plugin_json::configuration::Configuration { let mut builder = dprint_plugin_json::configuration::ConfigurationBuilder::new(); builder.deno(); if let Some(use_tabs) = options.use_tabs { builder.use_tabs(use_tabs); } if let Some(line_width) = options.line_width { builder.line_width(line_width); } if let Some(indent_width) = options.indent_width { builder.indent_width(indent_width); } builder.build() } struct FileContents { text: String, had_bom: bool, } fn read_file_contents(file_path: &Path) -> Result { let file_bytes = fs::read(&file_path) .with_context(|| format!("Error reading {}", file_path.display()))?; let charset = text_encoding::detect_charset(&file_bytes); let file_text = text_encoding::convert_to_utf8(&file_bytes, charset)?; let had_bom = file_text.starts_with(text_encoding::BOM_CHAR); let text = if had_bom { text_encoding::strip_bom(&file_text).to_string() } else { file_text.to_string() }; Ok(FileContents { text, had_bom }) } fn write_file_contents( file_path: &Path, file_contents: FileContents, ) -> Result<(), AnyError> { let file_text = if file_contents.had_bom { // add back the BOM format!("{}{}", text_encoding::BOM_CHAR, file_contents.text) } else { file_contents.text }; Ok(fs::write(file_path, file_text)?) } pub async fn run_parallelized( file_paths: Vec, f: F, ) -> Result<(), AnyError> where F: FnOnce(PathBuf) -> Result<(), AnyError> + Send + 'static + Clone, { let handles = file_paths.iter().map(|file_path| { let f = f.clone(); let file_path = file_path.clone(); tokio::task::spawn_blocking(move || f(file_path)) }); let join_results = futures::future::join_all(handles).await; // find the tasks that panicked and let the user know which files let panic_file_paths = join_results .iter() .enumerate() .filter_map(|(i, join_result)| { join_result .as_ref() .err() .map(|_| file_paths[i].to_string_lossy()) }) .collect::>(); if !panic_file_paths.is_empty() { panic!("Panic formatting: {}", panic_file_paths.join(", ")) } // check for any errors and if so return the first one let mut errors = join_results.into_iter().filter_map(|join_result| { join_result .ok() .and_then(|handle_result| handle_result.err()) }); if let Some(e) = errors.next() { Err(e) } else { Ok(()) } } /// This function is similar to is_supported_ext but adds additional extensions /// supported by `deno fmt`. fn is_supported_ext_fmt(path: &Path) -> bool { if let Some(ext) = get_extension(path) { matches!( ext.as_str(), "ts" | "tsx" | "js" | "jsx" | "mjs" | "json" | "jsonc" | "md" | "mkd" | "mkdn" | "mdwn" | "mdown" | "markdown" ) } else { false } } fn is_contain_git(path: &Path) -> bool { path.components().any(|c| c.as_os_str() == ".git") } #[cfg(test)] mod test { use super::*; #[test] fn test_is_supported_ext_fmt() { assert!(!is_supported_ext_fmt(Path::new("tests/subdir/redirects"))); assert!(is_supported_ext_fmt(Path::new("README.md"))); assert!(is_supported_ext_fmt(Path::new("readme.MD"))); assert!(is_supported_ext_fmt(Path::new("readme.mkd"))); assert!(is_supported_ext_fmt(Path::new("readme.mkdn"))); assert!(is_supported_ext_fmt(Path::new("readme.mdwn"))); assert!(is_supported_ext_fmt(Path::new("readme.mdown"))); assert!(is_supported_ext_fmt(Path::new("readme.markdown"))); assert!(is_supported_ext_fmt(Path::new("lib/typescript.d.ts"))); assert!(is_supported_ext_fmt(Path::new("testdata/001_hello.js"))); assert!(is_supported_ext_fmt(Path::new("testdata/002_hello.ts"))); assert!(is_supported_ext_fmt(Path::new("foo.jsx"))); assert!(is_supported_ext_fmt(Path::new("foo.tsx"))); assert!(is_supported_ext_fmt(Path::new("foo.TS"))); assert!(is_supported_ext_fmt(Path::new("foo.TSX"))); assert!(is_supported_ext_fmt(Path::new("foo.JS"))); assert!(is_supported_ext_fmt(Path::new("foo.JSX"))); assert!(is_supported_ext_fmt(Path::new("foo.mjs"))); assert!(!is_supported_ext_fmt(Path::new("foo.mjsx"))); assert!(is_supported_ext_fmt(Path::new("foo.jsonc"))); assert!(is_supported_ext_fmt(Path::new("foo.JSONC"))); assert!(is_supported_ext_fmt(Path::new("foo.json"))); assert!(is_supported_ext_fmt(Path::new("foo.JsON"))); } #[test] fn test_is_located_in_git() { assert!(is_contain_git(Path::new("test/.git"))); assert!(is_contain_git(Path::new(".git/bad.json"))); assert!(is_contain_git(Path::new("test/.git/bad.json"))); assert!(!is_contain_git(Path::new("test/bad.git/bad.json"))); } #[test] #[should_panic(expected = "Formatting not stable. Bailed after 5 tries.")] fn test_format_ensure_stable_unstable_format() { format_ensure_stable( &PathBuf::from("mod.ts"), "1", &Default::default(), |_, file_text, _| Ok(Some(format!("1{}", file_text))), ) .unwrap(); } #[test] fn test_format_ensure_stable_error_first() { let err = format_ensure_stable( &PathBuf::from("mod.ts"), "1", &Default::default(), |_, _, _| bail!("Error formatting."), ) .unwrap_err(); assert_eq!(err.to_string(), "Error formatting."); } #[test] #[should_panic(expected = "Formatting succeeded initially, but failed when")] fn test_format_ensure_stable_error_second() { format_ensure_stable( &PathBuf::from("mod.ts"), "1", &Default::default(), |_, file_text, _| { if file_text == "1" { Ok(Some("11".to_string())) } else { bail!("Error formatting.") } }, ) .unwrap(); } #[test] fn test_format_stable_after_two() { let result = format_ensure_stable( &PathBuf::from("mod.ts"), "1", &Default::default(), |_, file_text, _| { if file_text == "1" { Ok(Some("11".to_string())) } else if file_text == "11" { Ok(None) } else { unreachable!(); } }, ) .unwrap(); assert_eq!(result, Some("11".to_string())); } }