use anyhow::{Context, Result}; use mdbook::BookItem; use mdbook::book::{Book, Chapter}; use mdbook::preprocess::CmdPreprocessor; use regex::Regex; use settings::KeymapFile; use std::borrow::Cow; use std::collections::{HashMap, HashSet}; use std::io::{self, Read}; use std::process; use std::sync::{LazyLock, OnceLock}; use util::paths::PathExt; static KEYMAP_MACOS: LazyLock = LazyLock::new(|| { load_keymap("keymaps/default-macos.json").expect("Failed to load MacOS keymap") }); static KEYMAP_LINUX: LazyLock = LazyLock::new(|| { load_keymap("keymaps/default-linux.json").expect("Failed to load Linux keymap") }); static KEYMAP_WINDOWS: LazyLock = LazyLock::new(|| { load_keymap("keymaps/default-windows.json").expect("Failed to load Windows keymap") }); static ALL_ACTIONS: LazyLock> = LazyLock::new(dump_all_gpui_actions); const FRONT_MATTER_COMMENT: &str = ""; fn main() -> Result<()> { zlog::init(); zlog::init_output_stderr(); // call a zed:: function so everything in `zed` crate is linked and // all actions in the actual app are registered zed::stdout_is_a_pty(); let args = std::env::args().skip(1).collect::>(); match args.get(0).map(String::as_str) { Some("supports") => { let renderer = args.get(1).expect("Required argument"); let supported = renderer != "not-supported"; if supported { process::exit(0); } else { process::exit(1); } } Some("postprocess") => handle_postprocessing()?, _ => handle_preprocessing()?, } Ok(()) } #[derive(Debug, Clone, PartialEq, Eq, Hash)] enum PreprocessorError { ActionNotFound { action_name: String }, DeprecatedActionUsed { used: String, should_be: String }, InvalidFrontmatterLine(String), } impl PreprocessorError { fn new_for_not_found_action(action_name: String) -> Self { for action in &*ALL_ACTIONS { for alias in action.deprecated_aliases { if alias == &action_name { return PreprocessorError::DeprecatedActionUsed { used: action_name, should_be: action.name.to_string(), }; } } } PreprocessorError::ActionNotFound { action_name } } } impl std::fmt::Display for PreprocessorError { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { match self { PreprocessorError::InvalidFrontmatterLine(line) => { write!(f, "Invalid frontmatter line: {}", line) } PreprocessorError::ActionNotFound { action_name } => { write!(f, "Action not found: {}", action_name) } PreprocessorError::DeprecatedActionUsed { used, should_be } => write!( f, "Deprecated action used: {} should be {}", used, should_be ), } } } fn handle_preprocessing() -> Result<()> { let mut stdin = io::stdin(); let mut input = String::new(); stdin.read_to_string(&mut input)?; let (_ctx, mut book) = CmdPreprocessor::parse_input(input.as_bytes())?; let mut errors = HashSet::::new(); handle_frontmatter(&mut book, &mut errors); template_big_table_of_actions(&mut book); template_and_validate_keybindings(&mut book, &mut errors); template_and_validate_actions(&mut book, &mut errors); if !errors.is_empty() { const ANSI_RED: &str = "\x1b[31m"; const ANSI_RESET: &str = "\x1b[0m"; for error in &errors { eprintln!("{ANSI_RED}ERROR{ANSI_RESET}: {}", error); } return Err(anyhow::anyhow!("Found {} errors in docs", errors.len())); } serde_json::to_writer(io::stdout(), &book)?; Ok(()) } fn handle_frontmatter(book: &mut Book, errors: &mut HashSet) { let frontmatter_regex = Regex::new(r"(?s)^\s*---(.*?)---").unwrap(); for_each_chapter_mut(book, |chapter| { let new_content = frontmatter_regex.replace(&chapter.content, |caps: ®ex::Captures| { let frontmatter = caps[1].trim(); let frontmatter = frontmatter.trim_matches(&[' ', '-', '\n']); let mut metadata = HashMap::::default(); for line in frontmatter.lines() { let Some((name, value)) = line.split_once(':') else { errors.insert(PreprocessorError::InvalidFrontmatterLine(format!( "{}: {}", chapter_breadcrumbs(chapter), line ))); continue; }; let name = name.trim(); let value = value.trim(); metadata.insert(name.to_string(), value.to_string()); } FRONT_MATTER_COMMENT.replace( "{}", &serde_json::to_string(&metadata).expect("Failed to serialize metadata"), ) }); if let Cow::Owned(content) = new_content { chapter.content = content; } }); } fn template_big_table_of_actions(book: &mut Book) { for_each_chapter_mut(book, |chapter| { let needle = "{#ACTIONS_TABLE#}"; if let Some(start) = chapter.content.rfind(needle) { chapter.content.replace_range( start..start + needle.len(), &generate_big_table_of_actions(), ); } }); } fn template_and_validate_keybindings(book: &mut Book, errors: &mut HashSet) { let regex = Regex::new(r"\{#kb (.*?)\}").unwrap(); for_each_chapter_mut(book, |chapter| { chapter.content = regex .replace_all(&chapter.content, |caps: ®ex::Captures| { let action = caps[1].trim(); if find_action_by_name(action).is_none() { errors.insert(PreprocessorError::new_for_not_found_action( action.to_string(), )); return String::new(); } let macos_binding = find_binding("macos", action).unwrap_or_default(); let linux_binding = find_binding("linux", action).unwrap_or_default(); if macos_binding.is_empty() && linux_binding.is_empty() { return "
No default binding
".to_string(); } format!("{macos_binding}|{linux_binding}") }) .into_owned() }); } fn template_and_validate_actions(book: &mut Book, errors: &mut HashSet) { let regex = Regex::new(r"\{#action (.*?)\}").unwrap(); for_each_chapter_mut(book, |chapter| { chapter.content = regex .replace_all(&chapter.content, |caps: ®ex::Captures| { let name = caps[1].trim(); let Some(action) = find_action_by_name(name) else { errors.insert(PreprocessorError::new_for_not_found_action( name.to_string(), )); return String::new(); }; format!("{}", &action.human_name) }) .into_owned() }); } fn find_action_by_name(name: &str) -> Option<&ActionDef> { ALL_ACTIONS .binary_search_by(|action| action.name.cmp(name)) .ok() .map(|index| &ALL_ACTIONS[index]) } fn find_binding(os: &str, action: &str) -> Option { let keymap = match os { "macos" => &KEYMAP_MACOS, "linux" | "freebsd" => &KEYMAP_LINUX, "windows" => &KEYMAP_WINDOWS, _ => unreachable!("Not a valid OS: {}", os), }; // Find the binding in reverse order, as the last binding takes precedence. keymap.sections().rev().find_map(|section| { section.bindings().rev().find_map(|(keystroke, a)| { if name_for_action(a.to_string()) == action { Some(keystroke.to_string()) } else { None } }) }) } /// Removes any configurable options from the stringified action if existing, /// ensuring that only the actual action name is returned. If the action consists /// only of a string and nothing else, the string is returned as-is. /// /// Example: /// /// This will return the action name unmodified. /// /// ``` /// let action_as_str = "assistant::Assist"; /// let action_name = name_for_action(action_as_str); /// assert_eq!(action_name, "assistant::Assist"); /// ``` /// /// This will return the action name with any trailing options removed. /// /// /// ``` /// let action_as_str = "\"editor::ToggleComments\", {\"advance_downwards\":false}"; /// let action_name = name_for_action(action_as_str); /// assert_eq!(action_name, "editor::ToggleComments"); /// ``` fn name_for_action(action_as_str: String) -> String { action_as_str .split(",") .next() .map(|name| name.trim_matches('"').to_string()) .unwrap_or(action_as_str) } fn chapter_breadcrumbs(chapter: &Chapter) -> String { let mut breadcrumbs = Vec::with_capacity(chapter.parent_names.len() + 1); breadcrumbs.extend(chapter.parent_names.iter().map(String::as_str)); breadcrumbs.push(chapter.name.as_str()); format!("[{:?}] {}", chapter.source_path, breadcrumbs.join(" > ")) } fn load_keymap(asset_path: &str) -> Result { let content = util::asset_str::(asset_path); KeymapFile::parse(content.as_ref()) } fn for_each_chapter_mut(book: &mut Book, mut func: F) where F: FnMut(&mut Chapter), { book.for_each_mut(|item| { let BookItem::Chapter(chapter) = item else { return; }; func(chapter); }); } #[derive(Debug, serde::Serialize)] struct ActionDef { name: &'static str, human_name: String, deprecated_aliases: &'static [&'static str], docs: Option<&'static str>, } fn dump_all_gpui_actions() -> Vec { let mut actions = gpui::generate_list_of_all_registered_actions() .map(|action| ActionDef { name: action.name, human_name: command_palette::humanize_action_name(action.name), deprecated_aliases: action.deprecated_aliases, docs: action.documentation, }) .collect::>(); actions.sort_by_key(|a| a.name); actions } fn handle_postprocessing() -> Result<()> { let logger = zlog::scoped!("render"); let mut ctx = mdbook::renderer::RenderContext::from_json(io::stdin())?; let output = ctx .config .get_mut("output") .expect("has output") .as_table_mut() .expect("output is table"); let zed_html = output.remove("zed-html").expect("zed-html output defined"); let default_description = zed_html .get("default-description") .expect("Default description not found") .as_str() .expect("Default description not a string") .to_string(); let default_title = zed_html .get("default-title") .expect("Default title not found") .as_str() .expect("Default title not a string") .to_string(); output.insert("html".to_string(), zed_html); mdbook::Renderer::render(&mdbook::renderer::HtmlHandlebars::new(), &ctx)?; let ignore_list = ["toc.html"]; let root_dir = ctx.destination.clone(); let mut files = Vec::with_capacity(128); let mut queue = Vec::with_capacity(64); queue.push(root_dir.clone()); while let Some(dir) = queue.pop() { for entry in std::fs::read_dir(&dir).context(dir.to_sanitized_string())? { let Ok(entry) = entry else { continue; }; let file_type = entry.file_type().context("Failed to determine file type")?; if file_type.is_dir() { queue.push(entry.path()); } if file_type.is_file() && matches!( entry.path().extension().and_then(std::ffi::OsStr::to_str), Some("html") ) { if ignore_list.contains(&&*entry.file_name().to_string_lossy()) { zlog::info!(logger => "Ignoring {}", entry.path().to_string_lossy()); } else { files.push(entry.path()); } } } } zlog::info!(logger => "Processing {} `.html` files", files.len()); let meta_regex = Regex::new(&FRONT_MATTER_COMMENT.replace("{}", "(.*)")).unwrap(); for file in files { let contents = std::fs::read_to_string(&file)?; let mut meta_description = None; let mut meta_title = None; let contents = meta_regex.replace(&contents, |caps: ®ex::Captures| { let metadata: HashMap = serde_json::from_str(&caps[1]).with_context(|| format!("JSON Metadata: {:?}", &caps[1])).expect("Failed to deserialize metadata"); for (kind, content) in metadata { match kind.as_str() { "description" => { meta_description = Some(content); } "title" => { meta_title = Some(content); } _ => { zlog::warn!(logger => "Unrecognized frontmatter key: {} in {:?}", kind, pretty_path(&file, &root_dir)); } } } String::new() }); let meta_description = meta_description.as_ref().unwrap_or_else(|| { zlog::warn!(logger => "No meta description found for {:?}", pretty_path(&file, &root_dir)); &default_description }); let page_title = extract_title_from_page(&contents, pretty_path(&file, &root_dir)); let meta_title = meta_title.as_ref().unwrap_or_else(|| { zlog::debug!(logger => "No meta title found for {:?}", pretty_path(&file, &root_dir)); &default_title }); let meta_title = format!("{} | {}", page_title, meta_title); zlog::trace!(logger => "Updating {:?}", pretty_path(&file, &root_dir)); let contents = contents.replace("#description#", meta_description); let contents = title_regex() .replace(&contents, |_: ®ex::Captures| { format!("{}", meta_title) }) .to_string(); // let contents = contents.replace("#title#", &meta_title); std::fs::write(file, contents)?; } return Ok(()); fn pretty_path<'a>( path: &'a std::path::PathBuf, root: &'a std::path::PathBuf, ) -> &'a std::path::Path { path.strip_prefix(&root).unwrap_or(path) } fn extract_title_from_page(contents: &str, pretty_path: &std::path::Path) -> String { let title_tag_contents = &title_regex() .captures(contents) .with_context(|| format!("Failed to find title in {:?}", pretty_path)) .expect("Page has element")[1]; title_tag_contents .trim() .strip_suffix("- Zed") .unwrap_or(title_tag_contents) .trim() .to_string() } } fn title_regex() -> &'static Regex { static TITLE_REGEX: OnceLock<Regex> = OnceLock::new(); TITLE_REGEX.get_or_init(|| Regex::new(r"<title>\s*(.*?)\s*").unwrap()) } fn generate_big_table_of_actions() -> String { let actions = &*ALL_ACTIONS; let mut output = String::new(); let mut actions_sorted = actions.iter().collect::>(); actions_sorted.sort_by_key(|a| a.name); // Start the definition list with custom styling for better spacing output.push_str("
\n"); for action in actions_sorted.into_iter() { // Add the humanized action name as the term with margin output.push_str( "
", ); output.push_str(&action.human_name); output.push_str("
\n"); // Add the definition with keymap name and description output.push_str("
\n"); // Add the description, escaping HTML if needed if let Some(description) = action.docs { output.push_str( &description .replace("&", "&") .replace("<", "<") .replace(">", ">"), ); output.push_str("
\n"); } output.push_str("Keymap Name: "); output.push_str(action.name); output.push_str("
\n"); if !action.deprecated_aliases.is_empty() { output.push_str("Deprecated Aliases:"); for alias in action.deprecated_aliases.iter() { output.push_str(""); output.push_str(alias); output.push_str(", "); } } output.push_str("\n
\n"); } // Close the definition list output.push_str("
\n"); output }