| // ignore-tidy-filelength |
| |
| //! Rustdoc's HTML rendering module. |
| //! |
| //! This modules contains the bulk of the logic necessary for rendering a |
| //! rustdoc `clean::Crate` instance to a set of static HTML pages. This |
| //! rendering process is largely driven by the `format!` syntax extension to |
| //! perform all I/O into files and streams. |
| //! |
| //! The rendering process is largely driven by the `Context` and `Cache` |
| //! structures. The cache is pre-populated by crawling the crate in question, |
| //! and then it is shared among the various rendering threads. The cache is meant |
| //! to be a fairly large structure not implementing `Clone` (because it's shared |
| //! among threads). The context, however, should be a lightweight structure. This |
| //! is cloned per-thread and contains information about what is currently being |
| //! rendered. |
| //! |
| //! In order to speed up rendering (mostly because of markdown rendering), the |
| //! rendering process has been parallelized. This parallelization is only |
| //! exposed through the `crate` method on the context, and then also from the |
| //! fact that the shared cache is stored in TLS (and must be accessed as such). |
| //! |
| //! In addition to rendering the crate itself, this module is also responsible |
| //! for creating the corresponding search index and source file renderings. |
| //! These threads are not parallelized (they haven't been a bottleneck yet), and |
| //! both occur before the crate is rendered. |
| |
| use std::borrow::Cow; |
| use std::cell::{Cell, RefCell}; |
| use std::cmp::Ordering; |
| use std::collections::{BTreeMap, VecDeque}; |
| use std::default::Default; |
| use std::error; |
| |
| use std::ffi::OsStr; |
| use std::fmt::{self, Formatter, Write}; |
| use std::fs::{self, File}; |
| use std::io::prelude::*; |
| use std::io::{self, BufReader}; |
| use std::path::{Component, Path, PathBuf}; |
| use std::rc::Rc; |
| use std::str; |
| use std::sync::Arc; |
| |
| use errors; |
| use rustc::hir::def_id::DefId; |
| use rustc::hir::{self, Mutability}; |
| use rustc::middle::privacy::AccessLevels; |
| use rustc::middle::stability; |
| use rustc_data_structures::flock; |
| use rustc_data_structures::fx::{FxHashMap, FxHashSet}; |
| use rustc_feature::UnstableFeatures; |
| use rustc_span::edition::Edition; |
| use rustc_span::hygiene::MacroKind; |
| use rustc_span::source_map::FileName; |
| use rustc_span::symbol::{sym, Symbol}; |
| use serde::ser::SerializeSeq; |
| use serde::{Serialize, Serializer}; |
| use syntax::ast; |
| use syntax::print::pprust; |
| |
| use crate::clean::{self, AttributesExt, Deprecation, GetDefId, SelfTy}; |
| use crate::config::RenderOptions; |
| use crate::docfs::{DocFS, ErrorStorage, PathError}; |
| use crate::doctree; |
| use crate::html::escape::Escape; |
| use crate::html::format::fmt_impl_for_trait_page; |
| use crate::html::format::Function; |
| use crate::html::format::{href, print_default_space, print_generic_bounds, WhereClause}; |
| use crate::html::format::{print_abi_with_space, Buffer, PrintWithSpace}; |
| use crate::html::item_type::ItemType; |
| use crate::html::markdown::{self, ErrorCodes, IdMap, Markdown, MarkdownHtml, MarkdownSummaryLine}; |
| use crate::html::sources; |
| use crate::html::{highlight, layout, static_files}; |
| |
| use minifier; |
| |
| #[cfg(test)] |
| mod tests; |
| |
| mod cache; |
| |
| use cache::Cache; |
| crate use cache::ExternalLocation::{self, *}; |
| |
| /// A pair of name and its optional document. |
| pub type NameDoc = (String, Option<String>); |
| |
| crate fn ensure_trailing_slash(v: &str) -> impl fmt::Display + '_ { |
| crate::html::format::display_fn(move |f| { |
| if !v.ends_with("/") && !v.is_empty() { write!(f, "{}/", v) } else { write!(f, "{}", v) } |
| }) |
| } |
| |
| #[derive(Debug)] |
| pub struct Error { |
| pub file: PathBuf, |
| pub error: io::Error, |
| } |
| |
| impl error::Error for Error {} |
| |
| impl std::fmt::Display for Error { |
| fn fmt(&self, f: &mut Formatter<'_>) -> fmt::Result { |
| let file = self.file.display().to_string(); |
| if file.is_empty() { |
| write!(f, "{}", self.error) |
| } else { |
| write!(f, "\"{}\": {}", self.file.display(), self.error) |
| } |
| } |
| } |
| |
| impl PathError for Error { |
| fn new<P: AsRef<Path>>(e: io::Error, path: P) -> Error { |
| Error { file: path.as_ref().to_path_buf(), error: e } |
| } |
| } |
| |
| macro_rules! try_none { |
| ($e:expr, $file:expr) => {{ |
| use std::io; |
| match $e { |
| Some(e) => e, |
| None => { |
| return Err(Error::new(io::Error::new(io::ErrorKind::Other, "not found"), $file)); |
| } |
| } |
| }}; |
| } |
| |
| macro_rules! try_err { |
| ($e:expr, $file:expr) => {{ |
| match $e { |
| Ok(e) => e, |
| Err(e) => return Err(Error::new(e, $file)), |
| } |
| }}; |
| } |
| |
| /// Major driving force in all rustdoc rendering. This contains information |
| /// about where in the tree-like hierarchy rendering is occurring and controls |
| /// how the current page is being rendered. |
| /// |
| /// It is intended that this context is a lightweight object which can be fairly |
| /// easily cloned because it is cloned per work-job (about once per item in the |
| /// rustdoc tree). |
| #[derive(Clone)] |
| struct Context { |
| /// Current hierarchy of components leading down to what's currently being |
| /// rendered |
| pub current: Vec<String>, |
| /// The current destination folder of where HTML artifacts should be placed. |
| /// This changes as the context descends into the module hierarchy. |
| pub dst: PathBuf, |
| /// A flag, which when `true`, will render pages which redirect to the |
| /// real location of an item. This is used to allow external links to |
| /// publicly reused items to redirect to the right location. |
| pub render_redirect_pages: bool, |
| /// The map used to ensure all generated 'id=' attributes are unique. |
| id_map: Rc<RefCell<IdMap>>, |
| pub shared: Arc<SharedContext>, |
| pub cache: Arc<Cache>, |
| } |
| |
| crate struct SharedContext { |
| /// The path to the crate root source minus the file name. |
| /// Used for simplifying paths to the highlighted source code files. |
| pub src_root: PathBuf, |
| /// This describes the layout of each page, and is not modified after |
| /// creation of the context (contains info like the favicon and added html). |
| pub layout: layout::Layout, |
| /// This flag indicates whether `[src]` links should be generated or not. If |
| /// the source files are present in the html rendering, then this will be |
| /// `true`. |
| pub include_sources: bool, |
| /// The local file sources we've emitted and their respective url-paths. |
| pub local_sources: FxHashMap<PathBuf, String>, |
| /// Whether the collapsed pass ran |
| pub collapsed: bool, |
| /// The base-URL of the issue tracker for when an item has been tagged with |
| /// an issue number. |
| pub issue_tracker_base_url: Option<String>, |
| /// The directories that have already been created in this doc run. Used to reduce the number |
| /// of spurious `create_dir_all` calls. |
| pub created_dirs: RefCell<FxHashSet<PathBuf>>, |
| /// This flag indicates whether listings of modules (in the side bar and documentation itself) |
| /// should be ordered alphabetically or in order of appearance (in the source code). |
| pub sort_modules_alphabetically: bool, |
| /// Additional themes to be added to the generated docs. |
| pub themes: Vec<PathBuf>, |
| /// Suffix to be added on resource files (if suffix is "-v2" then "light.css" becomes |
| /// "light-v2.css"). |
| pub resource_suffix: String, |
| /// Optional path string to be used to load static files on output pages. If not set, uses |
| /// combinations of `../` to reach the documentation root. |
| pub static_root_path: Option<String>, |
| /// Option disabled by default to generate files used by RLS and some other tools. |
| pub generate_redirect_pages: bool, |
| /// The fs handle we are working with. |
| pub fs: DocFS, |
| /// The default edition used to parse doctests. |
| pub edition: Edition, |
| pub codes: ErrorCodes, |
| playground: Option<markdown::Playground>, |
| } |
| |
| impl Context { |
| fn path(&self, filename: &str) -> PathBuf { |
| // We use splitn vs Path::extension here because we might get a filename |
| // like `style.min.css` and we want to process that into |
| // `style-suffix.min.css`. Path::extension would just return `css` |
| // which would result in `style.min-suffix.css` which isn't what we |
| // want. |
| let mut iter = filename.splitn(2, '.'); |
| let base = iter.next().unwrap(); |
| let ext = iter.next().unwrap(); |
| let filename = format!("{}{}.{}", base, self.shared.resource_suffix, ext,); |
| self.dst.join(&filename) |
| } |
| } |
| |
| impl SharedContext { |
| crate fn ensure_dir(&self, dst: &Path) -> Result<(), Error> { |
| let mut dirs = self.created_dirs.borrow_mut(); |
| if !dirs.contains(dst) { |
| try_err!(self.fs.create_dir_all(dst), dst); |
| dirs.insert(dst.to_path_buf()); |
| } |
| |
| Ok(()) |
| } |
| |
| /// Based on whether the `collapse-docs` pass was run, return either the `doc_value` or the |
| /// `collapsed_doc_value` of the given item. |
| pub fn maybe_collapsed_doc_value<'a>(&self, item: &'a clean::Item) -> Option<Cow<'a, str>> { |
| if self.collapsed { |
| item.collapsed_doc_value().map(|s| s.into()) |
| } else { |
| item.doc_value().map(|s| s.into()) |
| } |
| } |
| } |
| |
| /// Metadata about implementations for a type or trait. |
| #[derive(Clone, Debug)] |
| pub struct Impl { |
| pub impl_item: clean::Item, |
| } |
| |
| impl Impl { |
| fn inner_impl(&self) -> &clean::Impl { |
| match self.impl_item.inner { |
| clean::ImplItem(ref impl_) => impl_, |
| _ => panic!("non-impl item found in impl"), |
| } |
| } |
| |
| fn trait_did(&self) -> Option<DefId> { |
| self.inner_impl().trait_.def_id() |
| } |
| } |
| |
| /// Temporary storage for data obtained during `RustdocVisitor::clean()`. |
| /// Later on moved into `CACHE_KEY`. |
| #[derive(Default)] |
| pub struct RenderInfo { |
| pub inlined: FxHashSet<DefId>, |
| pub external_paths: crate::core::ExternalPaths, |
| pub exact_paths: FxHashMap<DefId, Vec<String>>, |
| pub access_levels: AccessLevels<DefId>, |
| pub deref_trait_did: Option<DefId>, |
| pub deref_mut_trait_did: Option<DefId>, |
| pub owned_box_did: Option<DefId>, |
| } |
| |
| // Helper structs for rendering items/sidebars and carrying along contextual |
| // information |
| |
| /// Struct representing one entry in the JS search index. These are all emitted |
| /// by hand to a large JS file at the end of cache-creation. |
| #[derive(Debug)] |
| struct IndexItem { |
| ty: ItemType, |
| name: String, |
| path: String, |
| desc: String, |
| parent: Option<DefId>, |
| parent_idx: Option<usize>, |
| search_type: Option<IndexItemFunctionType>, |
| } |
| |
| impl Serialize for IndexItem { |
| fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error> |
| where |
| S: Serializer, |
| { |
| assert_eq!(self.parent.is_some(), self.parent_idx.is_some()); |
| |
| (self.ty, &self.name, &self.path, &self.desc, self.parent_idx, &self.search_type) |
| .serialize(serializer) |
| } |
| } |
| |
| /// A type used for the search index. |
| #[derive(Debug)] |
| struct Type { |
| name: Option<String>, |
| generics: Option<Vec<String>>, |
| } |
| |
| impl Serialize for Type { |
| fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error> |
| where |
| S: Serializer, |
| { |
| if let Some(name) = &self.name { |
| let mut seq = serializer.serialize_seq(None)?; |
| seq.serialize_element(&name)?; |
| if let Some(generics) = &self.generics { |
| seq.serialize_element(&generics)?; |
| } |
| seq.end() |
| } else { |
| serializer.serialize_none() |
| } |
| } |
| } |
| |
| /// Full type of functions/methods in the search index. |
| #[derive(Debug)] |
| struct IndexItemFunctionType { |
| inputs: Vec<Type>, |
| output: Option<Vec<Type>>, |
| } |
| |
| impl Serialize for IndexItemFunctionType { |
| fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error> |
| where |
| S: Serializer, |
| { |
| // If we couldn't figure out a type, just write `null`. |
| let mut iter = self.inputs.iter(); |
| if match self.output { |
| Some(ref output) => iter.chain(output.iter()).any(|ref i| i.name.is_none()), |
| None => iter.any(|ref i| i.name.is_none()), |
| } { |
| serializer.serialize_none() |
| } else { |
| let mut seq = serializer.serialize_seq(None)?; |
| seq.serialize_element(&self.inputs)?; |
| if let Some(output) = &self.output { |
| if output.len() > 1 { |
| seq.serialize_element(&output)?; |
| } else { |
| seq.serialize_element(&output[0])?; |
| } |
| } |
| seq.end() |
| } |
| } |
| } |
| |
| thread_local!(static CACHE_KEY: RefCell<Arc<Cache>> = Default::default()); |
| thread_local!(pub static CURRENT_DEPTH: Cell<usize> = Cell::new(0)); |
| |
| pub fn initial_ids() -> Vec<String> { |
| [ |
| "main", |
| "search", |
| "help", |
| "TOC", |
| "render-detail", |
| "associated-types", |
| "associated-const", |
| "required-methods", |
| "provided-methods", |
| "implementors", |
| "synthetic-implementors", |
| "implementors-list", |
| "synthetic-implementors-list", |
| "methods", |
| "deref-methods", |
| "implementations", |
| ] |
| .iter() |
| .map(|id| (String::from(*id))) |
| .collect() |
| } |
| |
| /// Generates the documentation for `crate` into the directory `dst` |
| pub fn run( |
| mut krate: clean::Crate, |
| options: RenderOptions, |
| renderinfo: RenderInfo, |
| diag: &errors::Handler, |
| edition: Edition, |
| ) -> Result<(), Error> { |
| // need to save a copy of the options for rendering the index page |
| let md_opts = options.clone(); |
| let RenderOptions { |
| output, |
| external_html, |
| id_map, |
| playground_url, |
| sort_modules_alphabetically, |
| themes, |
| extension_css, |
| extern_html_root_urls, |
| resource_suffix, |
| static_root_path, |
| generate_search_filter, |
| generate_redirect_pages, |
| .. |
| } = options; |
| |
| let src_root = match krate.src { |
| FileName::Real(ref p) => match p.parent() { |
| Some(p) => p.to_path_buf(), |
| None => PathBuf::new(), |
| }, |
| _ => PathBuf::new(), |
| }; |
| let mut errors = Arc::new(ErrorStorage::new()); |
| // If user passed in `--playground-url` arg, we fill in crate name here |
| let mut playground = None; |
| if let Some(url) = playground_url { |
| playground = Some(markdown::Playground { crate_name: Some(krate.name.clone()), url }); |
| } |
| let mut layout = layout::Layout { |
| logo: String::new(), |
| favicon: String::new(), |
| external_html, |
| krate: krate.name.clone(), |
| css_file_extension: extension_css, |
| generate_search_filter, |
| }; |
| let mut issue_tracker_base_url = None; |
| let mut include_sources = true; |
| |
| // Crawl the crate attributes looking for attributes which control how we're |
| // going to emit HTML |
| if let Some(attrs) = krate.module.as_ref().map(|m| &m.attrs) { |
| for attr in attrs.lists(sym::doc) { |
| match (attr.name_or_empty(), attr.value_str()) { |
| (sym::html_favicon_url, Some(s)) => { |
| layout.favicon = s.to_string(); |
| } |
| (sym::html_logo_url, Some(s)) => { |
| layout.logo = s.to_string(); |
| } |
| (sym::html_playground_url, Some(s)) => { |
| playground = Some(markdown::Playground { |
| crate_name: Some(krate.name.clone()), |
| url: s.to_string(), |
| }); |
| } |
| (sym::issue_tracker_base_url, Some(s)) => { |
| issue_tracker_base_url = Some(s.to_string()); |
| } |
| (sym::html_no_source, None) if attr.is_word() => { |
| include_sources = false; |
| } |
| _ => {} |
| } |
| } |
| } |
| let mut scx = SharedContext { |
| collapsed: krate.collapsed, |
| src_root, |
| include_sources, |
| local_sources: Default::default(), |
| issue_tracker_base_url, |
| layout, |
| created_dirs: Default::default(), |
| sort_modules_alphabetically, |
| themes, |
| resource_suffix, |
| static_root_path, |
| generate_redirect_pages, |
| fs: DocFS::new(&errors), |
| edition, |
| codes: ErrorCodes::from(UnstableFeatures::from_environment().is_nightly_build()), |
| playground, |
| }; |
| |
| let dst = output; |
| scx.ensure_dir(&dst)?; |
| krate = sources::render(&dst, &mut scx, krate)?; |
| let (new_crate, index, cache) = |
| Cache::from_krate(renderinfo, &extern_html_root_urls, &dst, krate); |
| krate = new_crate; |
| let cache = Arc::new(cache); |
| let mut cx = Context { |
| current: Vec::new(), |
| dst, |
| render_redirect_pages: false, |
| id_map: Rc::new(RefCell::new(id_map)), |
| shared: Arc::new(scx), |
| cache: cache.clone(), |
| }; |
| |
| // Freeze the cache now that the index has been built. Put an Arc into TLS |
| // for future parallelization opportunities |
| CACHE_KEY.with(|v| *v.borrow_mut() = cache.clone()); |
| CURRENT_DEPTH.with(|s| s.set(0)); |
| |
| // Write shared runs within a flock; disable thread dispatching of IO temporarily. |
| Arc::get_mut(&mut cx.shared).unwrap().fs.set_sync_only(true); |
| write_shared(&cx, &krate, index, &md_opts, diag)?; |
| Arc::get_mut(&mut cx.shared).unwrap().fs.set_sync_only(false); |
| |
| // And finally render the whole crate's documentation |
| let ret = cx.krate(krate); |
| let nb_errors = Arc::get_mut(&mut errors).map_or_else(|| 0, |errors| errors.write_errors(diag)); |
| if ret.is_err() { |
| ret |
| } else if nb_errors > 0 { |
| Err(Error::new(io::Error::new(io::ErrorKind::Other, "I/O error"), "")) |
| } else { |
| Ok(()) |
| } |
| } |
| |
| fn write_shared( |
| cx: &Context, |
| krate: &clean::Crate, |
| search_index: String, |
| options: &RenderOptions, |
| diag: &errors::Handler, |
| ) -> Result<(), Error> { |
| // Write out the shared files. Note that these are shared among all rustdoc |
| // docs placed in the output directory, so this needs to be a synchronized |
| // operation with respect to all other rustdocs running around. |
| let lock_file = cx.dst.join(".lock"); |
| let _lock = try_err!(flock::Lock::new(&lock_file, true, true, true), &lock_file); |
| |
| // Add all the static files. These may already exist, but we just |
| // overwrite them anyway to make sure that they're fresh and up-to-date. |
| |
| write_minify( |
| &cx.shared.fs, |
| cx.path("rustdoc.css"), |
| static_files::RUSTDOC_CSS, |
| options.enable_minification, |
| )?; |
| write_minify( |
| &cx.shared.fs, |
| cx.path("settings.css"), |
| static_files::SETTINGS_CSS, |
| options.enable_minification, |
| )?; |
| write_minify( |
| &cx.shared.fs, |
| cx.path("noscript.css"), |
| static_files::NOSCRIPT_CSS, |
| options.enable_minification, |
| )?; |
| |
| // To avoid "light.css" to be overwritten, we'll first run over the received themes and only |
| // then we'll run over the "official" styles. |
| let mut themes: FxHashSet<String> = FxHashSet::default(); |
| |
| for entry in &cx.shared.themes { |
| let content = try_err!(fs::read(&entry), &entry); |
| let theme = try_none!(try_none!(entry.file_stem(), &entry).to_str(), &entry); |
| let extension = try_none!(try_none!(entry.extension(), &entry).to_str(), &entry); |
| cx.shared.fs.write(cx.path(&format!("{}.{}", theme, extension)), content.as_slice())?; |
| themes.insert(theme.to_owned()); |
| } |
| |
| let write = |p, c| cx.shared.fs.write(p, c); |
| if (*cx.shared).layout.logo.is_empty() { |
| write(cx.path("rust-logo.png"), static_files::RUST_LOGO)?; |
| } |
| if (*cx.shared).layout.favicon.is_empty() { |
| write(cx.path("favicon.ico"), static_files::RUST_FAVICON)?; |
| } |
| write(cx.path("brush.svg"), static_files::BRUSH_SVG)?; |
| write(cx.path("wheel.svg"), static_files::WHEEL_SVG)?; |
| write(cx.path("down-arrow.svg"), static_files::DOWN_ARROW_SVG)?; |
| write_minify( |
| &cx.shared.fs, |
| cx.path("light.css"), |
| static_files::themes::LIGHT, |
| options.enable_minification, |
| )?; |
| themes.insert("light".to_owned()); |
| write_minify( |
| &cx.shared.fs, |
| cx.path("dark.css"), |
| static_files::themes::DARK, |
| options.enable_minification, |
| )?; |
| themes.insert("dark".to_owned()); |
| |
| let mut themes: Vec<&String> = themes.iter().collect(); |
| themes.sort(); |
| // To avoid theme switch latencies as much as possible, we put everything theme related |
| // at the beginning of the html files into another js file. |
| let theme_js = format!( |
| r#"var themes = document.getElementById("theme-choices"); |
| var themePicker = document.getElementById("theme-picker"); |
| |
| function showThemeButtonState() {{ |
| themes.style.display = "block"; |
| themePicker.style.borderBottomRightRadius = "0"; |
| themePicker.style.borderBottomLeftRadius = "0"; |
| }} |
| |
| function hideThemeButtonState() {{ |
| themes.style.display = "none"; |
| themePicker.style.borderBottomRightRadius = "3px"; |
| themePicker.style.borderBottomLeftRadius = "3px"; |
| }} |
| |
| function switchThemeButtonState() {{ |
| if (themes.style.display === "block") {{ |
| hideThemeButtonState(); |
| }} else {{ |
| showThemeButtonState(); |
| }} |
| }}; |
| |
| function handleThemeButtonsBlur(e) {{ |
| var active = document.activeElement; |
| var related = e.relatedTarget; |
| |
| if (active.id !== "themePicker" && |
| (!active.parentNode || active.parentNode.id !== "theme-choices") && |
| (!related || |
| (related.id !== "themePicker" && |
| (!related.parentNode || related.parentNode.id !== "theme-choices")))) {{ |
| hideThemeButtonState(); |
| }} |
| }} |
| |
| themePicker.onclick = switchThemeButtonState; |
| themePicker.onblur = handleThemeButtonsBlur; |
| {}.forEach(function(item) {{ |
| var but = document.createElement('button'); |
| but.textContent = item; |
| but.onclick = function(el) {{ |
| switchTheme(currentTheme, mainTheme, item, true); |
| }}; |
| but.onblur = handleThemeButtonsBlur; |
| themes.appendChild(but); |
| }});"#, |
| serde_json::to_string(&themes).unwrap() |
| ); |
| |
| write_minify(&cx.shared.fs, cx.path("theme.js"), &theme_js, options.enable_minification)?; |
| write_minify( |
| &cx.shared.fs, |
| cx.path("main.js"), |
| static_files::MAIN_JS, |
| options.enable_minification, |
| )?; |
| write_minify( |
| &cx.shared.fs, |
| cx.path("settings.js"), |
| static_files::SETTINGS_JS, |
| options.enable_minification, |
| )?; |
| if cx.shared.include_sources { |
| write_minify( |
| &cx.shared.fs, |
| cx.path("source-script.js"), |
| static_files::sidebar::SOURCE_SCRIPT, |
| options.enable_minification, |
| )?; |
| } |
| |
| { |
| write_minify( |
| &cx.shared.fs, |
| cx.path("storage.js"), |
| &format!( |
| "var resourcesSuffix = \"{}\";{}", |
| cx.shared.resource_suffix, |
| static_files::STORAGE_JS |
| ), |
| options.enable_minification, |
| )?; |
| } |
| |
| if let Some(ref css) = cx.shared.layout.css_file_extension { |
| let out = cx.path("theme.css"); |
| let buffer = try_err!(fs::read_to_string(css), css); |
| if !options.enable_minification { |
| cx.shared.fs.write(&out, &buffer)?; |
| } else { |
| write_minify(&cx.shared.fs, out, &buffer, options.enable_minification)?; |
| } |
| } |
| write_minify( |
| &cx.shared.fs, |
| cx.path("normalize.css"), |
| static_files::NORMALIZE_CSS, |
| options.enable_minification, |
| )?; |
| write(cx.dst.join("FiraSans-Regular.woff"), static_files::fira_sans::REGULAR)?; |
| write(cx.dst.join("FiraSans-Medium.woff"), static_files::fira_sans::MEDIUM)?; |
| write(cx.dst.join("FiraSans-LICENSE.txt"), static_files::fira_sans::LICENSE)?; |
| write(cx.dst.join("SourceSerifPro-Regular.ttf.woff"), static_files::source_serif_pro::REGULAR)?; |
| write(cx.dst.join("SourceSerifPro-Bold.ttf.woff"), static_files::source_serif_pro::BOLD)?; |
| write(cx.dst.join("SourceSerifPro-It.ttf.woff"), static_files::source_serif_pro::ITALIC)?; |
| write(cx.dst.join("SourceSerifPro-LICENSE.md"), static_files::source_serif_pro::LICENSE)?; |
| write(cx.dst.join("SourceCodePro-Regular.woff"), static_files::source_code_pro::REGULAR)?; |
| write(cx.dst.join("SourceCodePro-Semibold.woff"), static_files::source_code_pro::SEMIBOLD)?; |
| write(cx.dst.join("SourceCodePro-LICENSE.txt"), static_files::source_code_pro::LICENSE)?; |
| write(cx.dst.join("LICENSE-MIT.txt"), static_files::LICENSE_MIT)?; |
| write(cx.dst.join("LICENSE-APACHE.txt"), static_files::LICENSE_APACHE)?; |
| write(cx.dst.join("COPYRIGHT.txt"), static_files::COPYRIGHT)?; |
| |
| fn collect(path: &Path, krate: &str, key: &str) -> io::Result<(Vec<String>, Vec<String>)> { |
| let mut ret = Vec::new(); |
| let mut krates = Vec::new(); |
| |
| if path.exists() { |
| for line in BufReader::new(File::open(path)?).lines() { |
| let line = line?; |
| if !line.starts_with(key) { |
| continue; |
| } |
| if line.starts_with(&format!(r#"{}["{}"]"#, key, krate)) { |
| continue; |
| } |
| ret.push(line.to_string()); |
| krates.push( |
| line[key.len() + 2..] |
| .split('"') |
| .next() |
| .map(|s| s.to_owned()) |
| .unwrap_or_else(|| String::new()), |
| ); |
| } |
| } |
| Ok((ret, krates)) |
| } |
| |
| fn show_item(item: &IndexItem, krate: &str) -> String { |
| format!( |
| "{{'crate':'{}','ty':{},'name':'{}','desc':'{}','p':'{}'{}}}", |
| krate, |
| item.ty as usize, |
| item.name, |
| item.desc.replace("'", "\\'"), |
| item.path, |
| if let Some(p) = item.parent_idx { format!(",'parent':{}", p) } else { String::new() } |
| ) |
| } |
| |
| let dst = cx.dst.join(&format!("aliases{}.js", cx.shared.resource_suffix)); |
| { |
| let (mut all_aliases, _) = try_err!(collect(&dst, &krate.name, "ALIASES"), &dst); |
| let mut output = String::with_capacity(100); |
| for (alias, items) in &cx.cache.aliases { |
| if items.is_empty() { |
| continue; |
| } |
| output.push_str(&format!( |
| "\"{}\":[{}],", |
| alias, |
| items.iter().map(|v| show_item(v, &krate.name)).collect::<Vec<_>>().join(",") |
| )); |
| } |
| all_aliases.push(format!("ALIASES[\"{}\"] = {{{}}};", krate.name, output)); |
| all_aliases.sort(); |
| let mut v = Buffer::html(); |
| writeln!(&mut v, "var ALIASES = {{}};"); |
| for aliases in &all_aliases { |
| writeln!(&mut v, "{}", aliases); |
| } |
| cx.shared.fs.write(&dst, v.into_inner().into_bytes())?; |
| } |
| |
| use std::ffi::OsString; |
| |
| #[derive(Debug)] |
| struct Hierarchy { |
| elem: OsString, |
| children: FxHashMap<OsString, Hierarchy>, |
| elems: FxHashSet<OsString>, |
| } |
| |
| impl Hierarchy { |
| fn new(elem: OsString) -> Hierarchy { |
| Hierarchy { elem, children: FxHashMap::default(), elems: FxHashSet::default() } |
| } |
| |
| fn to_json_string(&self) -> String { |
| let mut subs: Vec<&Hierarchy> = self.children.values().collect(); |
| subs.sort_unstable_by(|a, b| a.elem.cmp(&b.elem)); |
| let mut files = self |
| .elems |
| .iter() |
| .map(|s| format!("\"{}\"", s.to_str().expect("invalid osstring conversion"))) |
| .collect::<Vec<_>>(); |
| files.sort_unstable_by(|a, b| a.cmp(b)); |
| let subs = subs.iter().map(|s| s.to_json_string()).collect::<Vec<_>>().join(","); |
| let dirs = |
| if subs.is_empty() { String::new() } else { format!(",\"dirs\":[{}]", subs) }; |
| let files = files.join(","); |
| let files = |
| if files.is_empty() { String::new() } else { format!(",\"files\":[{}]", files) }; |
| format!( |
| "{{\"name\":\"{name}\"{dirs}{files}}}", |
| name = self.elem.to_str().expect("invalid osstring conversion"), |
| dirs = dirs, |
| files = files |
| ) |
| } |
| } |
| |
| if cx.shared.include_sources { |
| let mut hierarchy = Hierarchy::new(OsString::new()); |
| for source in cx |
| .shared |
| .local_sources |
| .iter() |
| .filter_map(|p| p.0.strip_prefix(&cx.shared.src_root).ok()) |
| { |
| let mut h = &mut hierarchy; |
| let mut elems = source |
| .components() |
| .filter_map(|s| match s { |
| Component::Normal(s) => Some(s.to_owned()), |
| _ => None, |
| }) |
| .peekable(); |
| loop { |
| let cur_elem = elems.next().expect("empty file path"); |
| if elems.peek().is_none() { |
| h.elems.insert(cur_elem); |
| break; |
| } else { |
| let e = cur_elem.clone(); |
| h.children.entry(cur_elem.clone()).or_insert_with(|| Hierarchy::new(e)); |
| h = h.children.get_mut(&cur_elem).expect("not found child"); |
| } |
| } |
| } |
| |
| let dst = cx.dst.join(&format!("source-files{}.js", cx.shared.resource_suffix)); |
| let (mut all_sources, _krates) = try_err!(collect(&dst, &krate.name, "sourcesIndex"), &dst); |
| all_sources.push(format!( |
| "sourcesIndex[\"{}\"] = {};", |
| &krate.name, |
| hierarchy.to_json_string() |
| )); |
| all_sources.sort(); |
| let v = format!( |
| "var N = null;var sourcesIndex = {{}};\n{}\ncreateSourceSidebar();\n", |
| all_sources.join("\n") |
| ); |
| cx.shared.fs.write(&dst, v.as_bytes())?; |
| } |
| |
| // Update the search index |
| let dst = cx.dst.join(&format!("search-index{}.js", cx.shared.resource_suffix)); |
| let (mut all_indexes, mut krates) = try_err!(collect(&dst, &krate.name, "searchIndex"), &dst); |
| all_indexes.push(search_index); |
| |
| // Sort the indexes by crate so the file will be generated identically even |
| // with rustdoc running in parallel. |
| all_indexes.sort(); |
| { |
| let mut v = String::from("var searchIndex={};\n"); |
| v.push_str(&all_indexes.join("\n")); |
| // "addSearchOptions" has to be called first so the crate filtering can be set before the |
| // search might start (if it's set into the URL for example). |
| v.push_str("\naddSearchOptions(searchIndex);initSearch(searchIndex);"); |
| cx.shared.fs.write(&dst, &v)?; |
| } |
| if options.enable_index_page { |
| if let Some(index_page) = options.index_page.clone() { |
| let mut md_opts = options.clone(); |
| md_opts.output = cx.dst.clone(); |
| md_opts.external_html = (*cx.shared).layout.external_html.clone(); |
| |
| crate::markdown::render(index_page, md_opts, diag, cx.shared.edition); |
| } else { |
| let dst = cx.dst.join("index.html"); |
| let page = layout::Page { |
| title: "Index of crates", |
| css_class: "mod", |
| root_path: "./", |
| static_root_path: cx.shared.static_root_path.as_deref(), |
| description: "List of crates", |
| keywords: BASIC_KEYWORDS, |
| resource_suffix: &cx.shared.resource_suffix, |
| extra_scripts: &[], |
| static_extra_scripts: &[], |
| }; |
| krates.push(krate.name.clone()); |
| krates.sort(); |
| krates.dedup(); |
| |
| let content = format!( |
| "<h1 class='fqn'>\ |
| <span class='in-band'>List of all crates</span>\ |
| </h1><ul class='mod'>{}</ul>", |
| krates |
| .iter() |
| .map(|s| { |
| format!("<li><a href=\"{}index.html\">{}</li>", ensure_trailing_slash(s), s) |
| }) |
| .collect::<String>() |
| ); |
| let v = layout::render(&cx.shared.layout, &page, "", content, &cx.shared.themes); |
| cx.shared.fs.write(&dst, v.as_bytes())?; |
| } |
| } |
| |
| // Update the list of all implementors for traits |
| let dst = cx.dst.join("implementors"); |
| for (&did, imps) in &cx.cache.implementors { |
| // Private modules can leak through to this phase of rustdoc, which |
| // could contain implementations for otherwise private types. In some |
| // rare cases we could find an implementation for an item which wasn't |
| // indexed, so we just skip this step in that case. |
| // |
| // FIXME: this is a vague explanation for why this can't be a `get`, in |
| // theory it should be... |
| let &(ref remote_path, remote_item_type) = match cx.cache.paths.get(&did) { |
| Some(p) => p, |
| None => match cx.cache.external_paths.get(&did) { |
| Some(p) => p, |
| None => continue, |
| }, |
| }; |
| |
| #[derive(Serialize)] |
| struct Implementor { |
| text: String, |
| synthetic: bool, |
| types: Vec<String>, |
| } |
| |
| let implementors = imps |
| .iter() |
| .filter_map(|imp| { |
| // If the trait and implementation are in the same crate, then |
| // there's no need to emit information about it (there's inlining |
| // going on). If they're in different crates then the crate defining |
| // the trait will be interested in our implementation. |
| // |
| // If the implementation is from another crate then that crate |
| // should add it. |
| if imp.impl_item.def_id.krate == did.krate || !imp.impl_item.def_id.is_local() { |
| None |
| } else { |
| Some(Implementor { |
| text: imp.inner_impl().print().to_string(), |
| synthetic: imp.inner_impl().synthetic, |
| types: collect_paths_for_type(imp.inner_impl().for_.clone()), |
| }) |
| } |
| }) |
| .collect::<Vec<_>>(); |
| |
| // Only create a js file if we have impls to add to it. If the trait is |
| // documented locally though we always create the file to avoid dead |
| // links. |
| if implementors.is_empty() && !cx.cache.paths.contains_key(&did) { |
| continue; |
| } |
| |
| let implementors = format!( |
| r#"implementors["{}"] = {};"#, |
| krate.name, |
| serde_json::to_string(&implementors).unwrap() |
| ); |
| |
| let mut mydst = dst.clone(); |
| for part in &remote_path[..remote_path.len() - 1] { |
| mydst.push(part); |
| } |
| cx.shared.ensure_dir(&mydst)?; |
| mydst.push(&format!("{}.{}.js", remote_item_type, remote_path[remote_path.len() - 1])); |
| |
| let (mut all_implementors, _) = |
| try_err!(collect(&mydst, &krate.name, "implementors"), &mydst); |
| all_implementors.push(implementors); |
| // Sort the implementors by crate so the file will be generated |
| // identically even with rustdoc running in parallel. |
| all_implementors.sort(); |
| |
| let mut v = String::from("(function() {var implementors = {};\n"); |
| for implementor in &all_implementors { |
| writeln!(v, "{}", *implementor).unwrap(); |
| } |
| v.push_str( |
| r" |
| if (window.register_implementors) { |
| window.register_implementors(implementors); |
| } else { |
| window.pending_implementors = implementors; |
| } |
| ", |
| ); |
| v.push_str("})()"); |
| cx.shared.fs.write(&mydst, &v)?; |
| } |
| Ok(()) |
| } |
| |
| fn write_minify( |
| fs: &DocFS, |
| dst: PathBuf, |
| contents: &str, |
| enable_minification: bool, |
| ) -> Result<(), Error> { |
| if enable_minification { |
| if dst.extension() == Some(&OsStr::new("css")) { |
| let res = try_none!(minifier::css::minify(contents).ok(), &dst); |
| fs.write(dst, res.as_bytes()) |
| } else { |
| fs.write(dst, minifier::js::minify(contents).as_bytes()) |
| } |
| } else { |
| fs.write(dst, contents.as_bytes()) |
| } |
| } |
| |
| #[derive(Debug, Eq, PartialEq, Hash)] |
| struct ItemEntry { |
| url: String, |
| name: String, |
| } |
| |
| impl ItemEntry { |
| fn new(mut url: String, name: String) -> ItemEntry { |
| while url.starts_with('/') { |
| url.remove(0); |
| } |
| ItemEntry { url, name } |
| } |
| } |
| |
| impl ItemEntry { |
| crate fn print(&self) -> impl fmt::Display + '_ { |
| crate::html::format::display_fn(move |f| { |
| write!(f, "<a href='{}'>{}</a>", self.url, Escape(&self.name)) |
| }) |
| } |
| } |
| |
| impl PartialOrd for ItemEntry { |
| fn partial_cmp(&self, other: &ItemEntry) -> Option<::std::cmp::Ordering> { |
| Some(self.cmp(other)) |
| } |
| } |
| |
| impl Ord for ItemEntry { |
| fn cmp(&self, other: &ItemEntry) -> ::std::cmp::Ordering { |
| self.name.cmp(&other.name) |
| } |
| } |
| |
| #[derive(Debug)] |
| struct AllTypes { |
| structs: FxHashSet<ItemEntry>, |
| enums: FxHashSet<ItemEntry>, |
| unions: FxHashSet<ItemEntry>, |
| primitives: FxHashSet<ItemEntry>, |
| traits: FxHashSet<ItemEntry>, |
| macros: FxHashSet<ItemEntry>, |
| functions: FxHashSet<ItemEntry>, |
| typedefs: FxHashSet<ItemEntry>, |
| opaque_tys: FxHashSet<ItemEntry>, |
| statics: FxHashSet<ItemEntry>, |
| constants: FxHashSet<ItemEntry>, |
| keywords: FxHashSet<ItemEntry>, |
| attributes: FxHashSet<ItemEntry>, |
| derives: FxHashSet<ItemEntry>, |
| trait_aliases: FxHashSet<ItemEntry>, |
| } |
| |
| impl AllTypes { |
| fn new() -> AllTypes { |
| let new_set = |cap| FxHashSet::with_capacity_and_hasher(cap, Default::default()); |
| AllTypes { |
| structs: new_set(100), |
| enums: new_set(100), |
| unions: new_set(100), |
| primitives: new_set(26), |
| traits: new_set(100), |
| macros: new_set(100), |
| functions: new_set(100), |
| typedefs: new_set(100), |
| opaque_tys: new_set(100), |
| statics: new_set(100), |
| constants: new_set(100), |
| keywords: new_set(100), |
| attributes: new_set(100), |
| derives: new_set(100), |
| trait_aliases: new_set(100), |
| } |
| } |
| |
| fn append(&mut self, item_name: String, item_type: &ItemType) { |
| let mut url: Vec<_> = item_name.split("::").skip(1).collect(); |
| if let Some(name) = url.pop() { |
| let new_url = format!("{}/{}.{}.html", url.join("/"), item_type, name); |
| url.push(name); |
| let name = url.join("::"); |
| match *item_type { |
| ItemType::Struct => self.structs.insert(ItemEntry::new(new_url, name)), |
| ItemType::Enum => self.enums.insert(ItemEntry::new(new_url, name)), |
| ItemType::Union => self.unions.insert(ItemEntry::new(new_url, name)), |
| ItemType::Primitive => self.primitives.insert(ItemEntry::new(new_url, name)), |
| ItemType::Trait => self.traits.insert(ItemEntry::new(new_url, name)), |
| ItemType::Macro => self.macros.insert(ItemEntry::new(new_url, name)), |
| ItemType::Function => self.functions.insert(ItemEntry::new(new_url, name)), |
| ItemType::Typedef => self.typedefs.insert(ItemEntry::new(new_url, name)), |
| ItemType::OpaqueTy => self.opaque_tys.insert(ItemEntry::new(new_url, name)), |
| ItemType::Static => self.statics.insert(ItemEntry::new(new_url, name)), |
| ItemType::Constant => self.constants.insert(ItemEntry::new(new_url, name)), |
| ItemType::ProcAttribute => self.attributes.insert(ItemEntry::new(new_url, name)), |
| ItemType::ProcDerive => self.derives.insert(ItemEntry::new(new_url, name)), |
| ItemType::TraitAlias => self.trait_aliases.insert(ItemEntry::new(new_url, name)), |
| _ => true, |
| }; |
| } |
| } |
| } |
| |
| fn print_entries(f: &mut Buffer, e: &FxHashSet<ItemEntry>, title: &str, class: &str) { |
| if !e.is_empty() { |
| let mut e: Vec<&ItemEntry> = e.iter().collect(); |
| e.sort(); |
| write!( |
| f, |
| "<h3 id='{}'>{}</h3><ul class='{} docblock'>{}</ul>", |
| title, |
| Escape(title), |
| class, |
| e.iter().map(|s| format!("<li>{}</li>", s.print())).collect::<String>() |
| ); |
| } |
| } |
| |
| impl AllTypes { |
| fn print(self, f: &mut Buffer) { |
| write!( |
| f, |
| "<h1 class='fqn'>\ |
| <span class='out-of-band'>\ |
| <span id='render-detail'>\ |
| <a id=\"toggle-all-docs\" href=\"javascript:void(0)\" title=\"collapse all docs\">\ |
| [<span class='inner'>−</span>]\ |
| </a>\ |
| </span> |
| </span> |
| <span class='in-band'>List of all items</span>\ |
| </h1>" |
| ); |
| print_entries(f, &self.structs, "Structs", "structs"); |
| print_entries(f, &self.enums, "Enums", "enums"); |
| print_entries(f, &self.unions, "Unions", "unions"); |
| print_entries(f, &self.primitives, "Primitives", "primitives"); |
| print_entries(f, &self.traits, "Traits", "traits"); |
| print_entries(f, &self.macros, "Macros", "macros"); |
| print_entries(f, &self.attributes, "Attribute Macros", "attributes"); |
| print_entries(f, &self.derives, "Derive Macros", "derives"); |
| print_entries(f, &self.functions, "Functions", "functions"); |
| print_entries(f, &self.typedefs, "Typedefs", "typedefs"); |
| print_entries(f, &self.trait_aliases, "Trait Aliases", "trait-aliases"); |
| print_entries(f, &self.opaque_tys, "Opaque Types", "opaque-types"); |
| print_entries(f, &self.statics, "Statics", "statics"); |
| print_entries(f, &self.constants, "Constants", "constants") |
| } |
| } |
| |
| #[derive(Debug)] |
| enum Setting { |
| Section { description: &'static str, sub_settings: Vec<Setting> }, |
| Entry { js_data_name: &'static str, description: &'static str, default_value: bool }, |
| } |
| |
| impl Setting { |
| fn display(&self) -> String { |
| match *self { |
| Setting::Section { ref description, ref sub_settings } => format!( |
| "<div class='setting-line'>\ |
| <div class='title'>{}</div>\ |
| <div class='sub-settings'>{}</div> |
| </div>", |
| description, |
| sub_settings.iter().map(|s| s.display()).collect::<String>() |
| ), |
| Setting::Entry { ref js_data_name, ref description, ref default_value } => format!( |
| "<div class='setting-line'>\ |
| <label class='toggle'>\ |
| <input type='checkbox' id='{}' {}>\ |
| <span class='slider'></span>\ |
| </label>\ |
| <div>{}</div>\ |
| </div>", |
| js_data_name, |
| if *default_value { " checked" } else { "" }, |
| description, |
| ), |
| } |
| } |
| } |
| |
| impl From<(&'static str, &'static str, bool)> for Setting { |
| fn from(values: (&'static str, &'static str, bool)) -> Setting { |
| Setting::Entry { js_data_name: values.0, description: values.1, default_value: values.2 } |
| } |
| } |
| |
| impl<T: Into<Setting>> From<(&'static str, Vec<T>)> for Setting { |
| fn from(values: (&'static str, Vec<T>)) -> Setting { |
| Setting::Section { |
| description: values.0, |
| sub_settings: values.1.into_iter().map(|v| v.into()).collect::<Vec<_>>(), |
| } |
| } |
| } |
| |
| fn settings(root_path: &str, suffix: &str) -> String { |
| // (id, explanation, default value) |
| let settings: &[Setting] = &[ |
| ( |
| "Auto-hide item declarations", |
| vec![ |
| ("auto-hide-struct", "Auto-hide structs declaration", true), |
| ("auto-hide-enum", "Auto-hide enums declaration", false), |
| ("auto-hide-union", "Auto-hide unions declaration", true), |
| ("auto-hide-trait", "Auto-hide traits declaration", true), |
| ("auto-hide-macro", "Auto-hide macros declaration", false), |
| ], |
| ) |
| .into(), |
| ("auto-hide-attributes", "Auto-hide item attributes.", true).into(), |
| ("auto-hide-method-docs", "Auto-hide item methods' documentation", false).into(), |
| ("auto-hide-trait-implementations", "Auto-hide trait implementations documentation", true) |
| .into(), |
| ("go-to-only-result", "Directly go to item in search if there is only one result", false) |
| .into(), |
| ("line-numbers", "Show line numbers on code examples", false).into(), |
| ("disable-shortcuts", "Disable keyboard shortcuts", false).into(), |
| ]; |
| format!( |
| "<h1 class='fqn'>\ |
| <span class='in-band'>Rustdoc settings</span>\ |
| </h1>\ |
| <div class='settings'>{}</div>\ |
| <script src='{}settings{}.js'></script>", |
| settings.iter().map(|s| s.display()).collect::<String>(), |
| root_path, |
| suffix |
| ) |
| } |
| |
| impl Context { |
| fn derive_id(&self, id: String) -> String { |
| let mut map = self.id_map.borrow_mut(); |
| map.derive(id) |
| } |
| |
| /// String representation of how to get back to the root path of the 'doc/' |
| /// folder in terms of a relative URL. |
| fn root_path(&self) -> String { |
| "../".repeat(self.current.len()) |
| } |
| |
| /// Main method for rendering a crate. |
| /// |
| /// This currently isn't parallelized, but it'd be pretty easy to add |
| /// parallelization to this function. |
| fn krate(self, mut krate: clean::Crate) -> Result<(), Error> { |
| let mut item = match krate.module.take() { |
| Some(i) => i, |
| None => return Ok(()), |
| }; |
| let final_file = self.dst.join(&krate.name).join("all.html"); |
| let settings_file = self.dst.join("settings.html"); |
| |
| let crate_name = krate.name.clone(); |
| item.name = Some(krate.name); |
| |
| let mut all = AllTypes::new(); |
| |
| { |
| // Render the crate documentation |
| let mut work = vec![(self.clone(), item)]; |
| |
| while let Some((mut cx, item)) = work.pop() { |
| cx.item(item, &mut all, |cx, item| work.push((cx.clone(), item)))? |
| } |
| } |
| |
| let mut root_path = self.dst.to_str().expect("invalid path").to_owned(); |
| if !root_path.ends_with('/') { |
| root_path.push('/'); |
| } |
| let mut page = layout::Page { |
| title: "List of all items in this crate", |
| css_class: "mod", |
| root_path: "../", |
| static_root_path: self.shared.static_root_path.as_deref(), |
| description: "List of all items in this crate", |
| keywords: BASIC_KEYWORDS, |
| resource_suffix: &self.shared.resource_suffix, |
| extra_scripts: &[], |
| static_extra_scripts: &[], |
| }; |
| let sidebar = if let Some(ref version) = self.cache.crate_version { |
| format!( |
| "<p class='location'>Crate {}</p>\ |
| <div class='block version'>\ |
| <p>Version {}</p>\ |
| </div>\ |
| <a id='all-types' href='index.html'><p>Back to index</p></a>", |
| crate_name, version |
| ) |
| } else { |
| String::new() |
| }; |
| let v = layout::render( |
| &self.shared.layout, |
| &page, |
| sidebar, |
| |buf: &mut Buffer| all.print(buf), |
| &self.shared.themes, |
| ); |
| self.shared.fs.write(&final_file, v.as_bytes())?; |
| |
| // Generating settings page. |
| page.title = "Rustdoc settings"; |
| page.description = "Settings of Rustdoc"; |
| page.root_path = "./"; |
| |
| let mut themes = self.shared.themes.clone(); |
| let sidebar = "<p class='location'>Settings</p><div class='sidebar-elems'></div>"; |
| themes.push(PathBuf::from("settings.css")); |
| let v = layout::render( |
| &self.shared.layout, |
| &page, |
| sidebar, |
| settings( |
| self.shared.static_root_path.as_deref().unwrap_or("./"), |
| &self.shared.resource_suffix, |
| ), |
| &themes, |
| ); |
| self.shared.fs.write(&settings_file, v.as_bytes())?; |
| |
| Ok(()) |
| } |
| |
| fn render_item(&self, it: &clean::Item, pushname: bool) -> String { |
| // A little unfortunate that this is done like this, but it sure |
| // does make formatting *a lot* nicer. |
| CURRENT_DEPTH.with(|slot| { |
| slot.set(self.current.len()); |
| }); |
| |
| let mut title = if it.is_primitive() || it.is_keyword() { |
| // No need to include the namespace for primitive types and keywords |
| String::new() |
| } else { |
| self.current.join("::") |
| }; |
| if pushname { |
| if !title.is_empty() { |
| title.push_str("::"); |
| } |
| title.push_str(it.name.as_ref().unwrap()); |
| } |
| title.push_str(" - Rust"); |
| let tyname = it.type_(); |
| let desc = if it.is_crate() { |
| format!("API documentation for the Rust `{}` crate.", self.shared.layout.krate) |
| } else { |
| format!( |
| "API documentation for the Rust `{}` {} in crate `{}`.", |
| it.name.as_ref().unwrap(), |
| tyname, |
| self.shared.layout.krate |
| ) |
| }; |
| let keywords = make_item_keywords(it); |
| let page = layout::Page { |
| css_class: tyname.as_str(), |
| root_path: &self.root_path(), |
| static_root_path: self.shared.static_root_path.as_deref(), |
| title: &title, |
| description: &desc, |
| keywords: &keywords, |
| resource_suffix: &self.shared.resource_suffix, |
| extra_scripts: &[], |
| static_extra_scripts: &[], |
| }; |
| |
| { |
| self.id_map.borrow_mut().reset(); |
| self.id_map.borrow_mut().populate(initial_ids()); |
| } |
| |
| if !self.render_redirect_pages { |
| layout::render( |
| &self.shared.layout, |
| &page, |
| |buf: &mut _| print_sidebar(self, it, buf), |
| |buf: &mut _| print_item(self, it, buf), |
| &self.shared.themes, |
| ) |
| } else { |
| let mut url = self.root_path(); |
| if let Some(&(ref names, ty)) = self.cache.paths.get(&it.def_id) { |
| for name in &names[..names.len() - 1] { |
| url.push_str(name); |
| url.push_str("/"); |
| } |
| url.push_str(&item_path(ty, names.last().unwrap())); |
| layout::redirect(&url) |
| } else { |
| String::new() |
| } |
| } |
| } |
| |
| /// Non-parallelized version of rendering an item. This will take the input |
| /// item, render its contents, and then invoke the specified closure with |
| /// all sub-items which need to be rendered. |
| /// |
| /// The rendering driver uses this closure to queue up more work. |
| fn item<F>(&mut self, item: clean::Item, all: &mut AllTypes, mut f: F) -> Result<(), Error> |
| where |
| F: FnMut(&mut Context, clean::Item), |
| { |
| // Stripped modules survive the rustdoc passes (i.e., `strip-private`) |
| // if they contain impls for public types. These modules can also |
| // contain items such as publicly re-exported structures. |
| // |
| // External crates will provide links to these structures, so |
| // these modules are recursed into, but not rendered normally |
| // (a flag on the context). |
| if !self.render_redirect_pages { |
| self.render_redirect_pages = item.is_stripped(); |
| } |
| |
| if item.is_mod() { |
| // modules are special because they add a namespace. We also need to |
| // recurse into the items of the module as well. |
| let name = item.name.as_ref().unwrap().to_string(); |
| let scx = &self.shared; |
| if name.is_empty() { |
| panic!("Unexpected empty destination: {:?}", self.current); |
| } |
| let prev = self.dst.clone(); |
| self.dst.push(&name); |
| self.current.push(name); |
| |
| info!("Recursing into {}", self.dst.display()); |
| |
| let buf = self.render_item(&item, false); |
| // buf will be empty if the module is stripped and there is no redirect for it |
| if !buf.is_empty() { |
| self.shared.ensure_dir(&self.dst)?; |
| let joint_dst = self.dst.join("index.html"); |
| scx.fs.write(&joint_dst, buf.as_bytes())?; |
| } |
| |
| let m = match item.inner { |
| clean::StrippedItem(box clean::ModuleItem(m)) | clean::ModuleItem(m) => m, |
| _ => unreachable!(), |
| }; |
| |
| // Render sidebar-items.js used throughout this module. |
| if !self.render_redirect_pages { |
| let items = self.build_sidebar_items(&m); |
| let js_dst = self.dst.join("sidebar-items.js"); |
| let v = format!("initSidebarItems({});", serde_json::to_string(&items).unwrap()); |
| scx.fs.write(&js_dst, &v)?; |
| } |
| |
| for item in m.items { |
| f(self, item); |
| } |
| |
| info!("Recursed; leaving {}", self.dst.display()); |
| |
| // Go back to where we were at |
| self.dst = prev; |
| self.current.pop().unwrap(); |
| } else if item.name.is_some() { |
| let buf = self.render_item(&item, true); |
| // buf will be empty if the item is stripped and there is no redirect for it |
| if !buf.is_empty() { |
| let name = item.name.as_ref().unwrap(); |
| let item_type = item.type_(); |
| let file_name = &item_path(item_type, name); |
| self.shared.ensure_dir(&self.dst)?; |
| let joint_dst = self.dst.join(file_name); |
| self.shared.fs.write(&joint_dst, buf.as_bytes())?; |
| |
| if !self.render_redirect_pages { |
| all.append(full_path(self, &item), &item_type); |
| } |
| if self.shared.generate_redirect_pages { |
| // Redirect from a sane URL using the namespace to Rustdoc's |
| // URL for the page. |
| let redir_name = format!("{}.{}.html", name, item_type.name_space()); |
| let redir_dst = self.dst.join(redir_name); |
| let v = layout::redirect(file_name); |
| self.shared.fs.write(&redir_dst, v.as_bytes())?; |
| } |
| // If the item is a macro, redirect from the old macro URL (with !) |
| // to the new one (without). |
| if item_type == ItemType::Macro { |
| let redir_name = format!("{}.{}!.html", item_type, name); |
| let redir_dst = self.dst.join(redir_name); |
| let v = layout::redirect(file_name); |
| self.shared.fs.write(&redir_dst, v.as_bytes())?; |
| } |
| } |
| } |
| Ok(()) |
| } |
| |
| fn build_sidebar_items(&self, m: &clean::Module) -> BTreeMap<String, Vec<NameDoc>> { |
| // BTreeMap instead of HashMap to get a sorted output |
| let mut map: BTreeMap<_, Vec<_>> = BTreeMap::new(); |
| for item in &m.items { |
| if item.is_stripped() { |
| continue; |
| } |
| |
| let short = item.type_(); |
| let myname = match item.name { |
| None => continue, |
| Some(ref s) => s.to_string(), |
| }; |
| let short = short.to_string(); |
| map.entry(short) |
| .or_default() |
| .push((myname, Some(plain_summary_line(item.doc_value())))); |
| } |
| |
| if self.shared.sort_modules_alphabetically { |
| for (_, items) in &mut map { |
| items.sort(); |
| } |
| } |
| map |
| } |
| } |
| |
| impl Context { |
| /// Generates a url appropriate for an `href` attribute back to the source of |
| /// this item. |
| /// |
| /// The url generated, when clicked, will redirect the browser back to the |
| /// original source code. |
| /// |
| /// If `None` is returned, then a source link couldn't be generated. This |
| /// may happen, for example, with externally inlined items where the source |
| /// of their crate documentation isn't known. |
| fn src_href(&self, item: &clean::Item) -> Option<String> { |
| let mut root = self.root_path(); |
| |
| let mut path = String::new(); |
| |
| // We can safely ignore macros from other libraries |
| let file = match item.source.filename { |
| FileName::Real(ref path) => path, |
| _ => return None, |
| }; |
| |
| let (krate, path) = if item.def_id.is_local() { |
| if let Some(path) = self.shared.local_sources.get(file) { |
| (&self.shared.layout.krate, path) |
| } else { |
| return None; |
| } |
| } else { |
| let (krate, src_root) = match *self.cache.extern_locations.get(&item.def_id.krate)? { |
| (ref name, ref src, Local) => (name, src), |
| (ref name, ref src, Remote(ref s)) => { |
| root = s.to_string(); |
| (name, src) |
| } |
| (_, _, Unknown) => return None, |
| }; |
| |
| sources::clean_path(&src_root, file, false, |component| { |
| path.push_str(&component.to_string_lossy()); |
| path.push('/'); |
| }); |
| let mut fname = file.file_name().expect("source has no filename").to_os_string(); |
| fname.push(".html"); |
| path.push_str(&fname.to_string_lossy()); |
| (krate, &path) |
| }; |
| |
| let lines = if item.source.loline == item.source.hiline { |
| item.source.loline.to_string() |
| } else { |
| format!("{}-{}", item.source.loline, item.source.hiline) |
| }; |
| Some(format!( |
| "{root}src/{krate}/{path}#{lines}", |
| root = Escape(&root), |
| krate = krate, |
| path = path, |
| lines = lines |
| )) |
| } |
| } |
| |
| fn wrap_into_docblock<F>(w: &mut Buffer, f: F) |
| where |
| F: FnOnce(&mut Buffer), |
| { |
| write!(w, "<div class=\"docblock type-decl hidden-by-usual-hider\">"); |
| f(w); |
| write!(w, "</div>") |
| } |
| |
| fn print_item(cx: &Context, item: &clean::Item, buf: &mut Buffer) { |
| debug_assert!(!item.is_stripped()); |
| // Write the breadcrumb trail header for the top |
| write!(buf, "<h1 class='fqn'><span class='out-of-band'>"); |
| if let Some(version) = item.stable_since() { |
| write!( |
| buf, |
| "<span class='since' title='Stable since Rust version {0}'>{0}</span>", |
| version |
| ); |
| } |
| write!( |
| buf, |
| "<span id='render-detail'>\ |
| <a id=\"toggle-all-docs\" href=\"javascript:void(0)\" \ |
| title=\"collapse all docs\">\ |
| [<span class='inner'>−</span>]\ |
| </a>\ |
| </span>" |
| ); |
| |
| // Write `src` tag |
| // |
| // When this item is part of a `pub use` in a downstream crate, the |
| // [src] link in the downstream documentation will actually come back to |
| // this page, and this link will be auto-clicked. The `id` attribute is |
| // used to find the link to auto-click. |
| if cx.shared.include_sources && !item.is_primitive() { |
| if let Some(l) = cx.src_href(item) { |
| write!(buf, "<a class='srclink' href='{}' title='{}'>[src]</a>", l, "goto source code"); |
| } |
| } |
| |
| write!(buf, "</span>"); // out-of-band |
| write!(buf, "<span class='in-band'>"); |
| let name = match item.inner { |
| clean::ModuleItem(ref m) => { |
| if m.is_crate { |
| "Crate " |
| } else { |
| "Module " |
| } |
| } |
| clean::FunctionItem(..) | clean::ForeignFunctionItem(..) => "Function ", |
| clean::TraitItem(..) => "Trait ", |
| clean::StructItem(..) => "Struct ", |
| clean::UnionItem(..) => "Union ", |
| clean::EnumItem(..) => "Enum ", |
| clean::TypedefItem(..) => "Type Definition ", |
| clean::MacroItem(..) => "Macro ", |
| clean::ProcMacroItem(ref mac) => match mac.kind { |
| MacroKind::Bang => "Macro ", |
| MacroKind::Attr => "Attribute Macro ", |
| MacroKind::Derive => "Derive Macro ", |
| }, |
| clean::PrimitiveItem(..) => "Primitive Type ", |
| clean::StaticItem(..) | clean::ForeignStaticItem(..) => "Static ", |
| clean::ConstantItem(..) => "Constant ", |
| clean::ForeignTypeItem => "Foreign Type ", |
| clean::KeywordItem(..) => "Keyword ", |
| clean::OpaqueTyItem(..) => "Opaque Type ", |
| clean::TraitAliasItem(..) => "Trait Alias ", |
| _ => { |
| // We don't generate pages for any other type. |
| unreachable!(); |
| } |
| }; |
| buf.write_str(name); |
| if !item.is_primitive() && !item.is_keyword() { |
| let cur = &cx.current; |
| let amt = if item.is_mod() { cur.len() - 1 } else { cur.len() }; |
| for (i, component) in cur.iter().enumerate().take(amt) { |
| write!( |
| buf, |
| "<a href='{}index.html'>{}</a>::<wbr>", |
| "../".repeat(cur.len() - i - 1), |
| component |
| ); |
| } |
| } |
| write!(buf, "<a class=\"{}\" href=''>{}</a>", item.type_(), item.name.as_ref().unwrap()); |
| |
| write!(buf, "</span></h1>"); // in-band |
| |
| match item.inner { |
| clean::ModuleItem(ref m) => item_module(buf, cx, item, &m.items), |
| clean::FunctionItem(ref f) | clean::ForeignFunctionItem(ref f) => { |
| item_function(buf, cx, item, f) |
| } |
| clean::TraitItem(ref t) => item_trait(buf, cx, item, t), |
| clean::StructItem(ref s) => item_struct(buf, cx, item, s), |
| clean::UnionItem(ref s) => item_union(buf, cx, item, s), |
| clean::EnumItem(ref e) => item_enum(buf, cx, item, e), |
| clean::TypedefItem(ref t, _) => item_typedef(buf, cx, item, t), |
| clean::MacroItem(ref m) => item_macro(buf, cx, item, m), |
| clean::ProcMacroItem(ref m) => item_proc_macro(buf, cx, item, m), |
| clean::PrimitiveItem(_) => item_primitive(buf, cx, item), |
| clean::StaticItem(ref i) | clean::ForeignStaticItem(ref i) => item_static(buf, cx, item, i), |
| clean::ConstantItem(ref c) => item_constant(buf, cx, item, c), |
| clean::ForeignTypeItem => item_foreign_type(buf, cx, item), |
| clean::KeywordItem(_) => item_keyword(buf, cx, item), |
| clean::OpaqueTyItem(ref e, _) => item_opaque_ty(buf, cx, item, e), |
| clean::TraitAliasItem(ref ta) => item_trait_alias(buf, cx, item, ta), |
| _ => { |
| // We don't generate pages for any other type. |
| unreachable!(); |
| } |
| } |
| } |
| |
| fn item_path(ty: ItemType, name: &str) -> String { |
| match ty { |
| ItemType::Module => format!("{}index.html", ensure_trailing_slash(name)), |
| _ => format!("{}.{}.html", ty, name), |
| } |
| } |
| |
| fn full_path(cx: &Context, item: &clean::Item) -> String { |
| let mut s = cx.current.join("::"); |
| s.push_str("::"); |
| s.push_str(item.name.as_ref().unwrap()); |
| s |
| } |
| |
| #[inline] |
| fn plain_summary_line(s: Option<&str>) -> String { |
| let s = s.unwrap_or(""); |
| // This essentially gets the first paragraph of text in one line. |
| let mut line = s |
| .lines() |
| .skip_while(|line| line.chars().all(|c| c.is_whitespace())) |
| .take_while(|line| line.chars().any(|c| !c.is_whitespace())) |
| .fold(String::new(), |mut acc, line| { |
| acc.push_str(line); |
| acc.push(' '); |
| acc |
| }); |
| // remove final whitespace |
| line.pop(); |
| markdown::plain_summary_line(&line[..]) |
| } |
| |
| fn shorten(s: String) -> String { |
| if s.chars().count() > 60 { |
| let mut len = 0; |
| let mut ret = s |
| .split_whitespace() |
| .take_while(|p| { |
| // + 1 for the added character after the word. |
| len += p.chars().count() + 1; |
| len < 60 |
| }) |
| .collect::<Vec<_>>() |
| .join(" "); |
| ret.push('…'); |
| ret |
| } else { |
| s |
| } |
| } |
| |
| fn document(w: &mut Buffer, cx: &Context, item: &clean::Item) { |
| if let Some(ref name) = item.name { |
| info!("Documenting {}", name); |
| } |
| document_stability(w, cx, item, false); |
| document_full(w, item, cx, "", false); |
| } |
| |
| /// Render md_text as markdown. |
| fn render_markdown( |
| w: &mut Buffer, |
| cx: &Context, |
| md_text: &str, |
| links: Vec<(String, String)>, |
| prefix: &str, |
| is_hidden: bool, |
| ) { |
| let mut ids = cx.id_map.borrow_mut(); |
| write!( |
| w, |
| "<div class='docblock{}'>{}{}</div>", |
| if is_hidden { " hidden" } else { "" }, |
| prefix, |
| Markdown( |
| md_text, |
| &links, |
| &mut ids, |
| cx.shared.codes, |
| cx.shared.edition, |
| &cx.shared.playground |
| ) |
| .to_string() |
| ) |
| } |
| |
| fn document_short( |
| w: &mut Buffer, |
| cx: &Context, |
| item: &clean::Item, |
| link: AssocItemLink<'_>, |
| prefix: &str, |
| is_hidden: bool, |
| ) { |
| if let Some(s) = item.doc_value() { |
| let markdown = if s.contains('\n') { |
| format!( |
| "{} [Read more]({})", |
| &plain_summary_line(Some(s)), |
| naive_assoc_href(item, link) |
| ) |
| } else { |
| plain_summary_line(Some(s)) |
| }; |
| render_markdown(w, cx, &markdown, item.links(), prefix, is_hidden); |
| } else if !prefix.is_empty() { |
| write!( |
| w, |
| "<div class='docblock{}'>{}</div>", |
| if is_hidden { " hidden" } else { "" }, |
| prefix |
| ); |
| } |
| } |
| |
| fn document_full(w: &mut Buffer, item: &clean::Item, cx: &Context, prefix: &str, is_hidden: bool) { |
| if let Some(s) = cx.shared.maybe_collapsed_doc_value(item) { |
| debug!("Doc block: =====\n{}\n=====", s); |
| render_markdown(w, cx, &*s, item.links(), prefix, is_hidden); |
| } else if !prefix.is_empty() { |
| write!( |
| w, |
| "<div class='docblock{}'>{}</div>", |
| if is_hidden { " hidden" } else { "" }, |
| prefix |
| ); |
| } |
| } |
| |
| fn document_stability(w: &mut Buffer, cx: &Context, item: &clean::Item, is_hidden: bool) { |
| let stabilities = short_stability(item, cx); |
| if !stabilities.is_empty() { |
| write!(w, "<div class='stability{}'>", if is_hidden { " hidden" } else { "" }); |
| for stability in stabilities { |
| write!(w, "{}", stability); |
| } |
| write!(w, "</div>"); |
| } |
| } |
| |
| fn document_non_exhaustive_header(item: &clean::Item) -> &str { |
| if item.is_non_exhaustive() { " (Non-exhaustive)" } else { "" } |
| } |
| |
| fn document_non_exhaustive(w: &mut Buffer, item: &clean::Item) { |
| if item.is_non_exhaustive() { |
| write!(w, "<div class='docblock non-exhaustive non-exhaustive-{}'>", { |
| if item.is_struct() { |
| "struct" |
| } else if item.is_enum() { |
| "enum" |
| } else if item.is_variant() { |
| "variant" |
| } else { |
| "type" |
| } |
| }); |
| |
| if item.is_struct() { |
| write!( |
| w, |
| "Non-exhaustive structs could have additional fields added in future. \ |
| Therefore, non-exhaustive structs cannot be constructed in external crates \ |
| using the traditional <code>Struct {{ .. }}</code> syntax; cannot be \ |
| matched against without a wildcard <code>..</code>; and \ |
| struct update syntax will not work." |
| ); |
| } else if item.is_enum() { |
| write!( |
| w, |
| "Non-exhaustive enums could have additional variants added in future. \ |
| Therefore, when matching against variants of non-exhaustive enums, an \ |
| extra wildcard arm must be added to account for any future variants." |
| ); |
| } else if item.is_variant() { |
| write!( |
| w, |
| "Non-exhaustive enum variants could have additional fields added in future. \ |
| Therefore, non-exhaustive enum variants cannot be constructed in external \ |
| crates and cannot be matched against." |
| ); |
| } else { |
| write!( |
| w, |
| "This type will require a wildcard arm in any match statements or \ |
| constructors." |
| ); |
| } |
| |
| write!(w, "</div>"); |
| } |
| } |
| |
| fn name_key(name: &str) -> (&str, u64, usize) { |
| let end = name.bytes().rposition(|b| b.is_ascii_digit()).map_or(name.len(), |i| i + 1); |
| |
| // find number at end |
| let split = name[0..end].bytes().rposition(|b| !b.is_ascii_digit()).map_or(0, |i| i + 1); |
| |
| // count leading zeroes |
| let after_zeroes = |
| name[split..end].bytes().position(|b| b != b'0').map_or(name.len(), |extra| split + extra); |
| |
| // sort leading zeroes last |
| let num_zeroes = after_zeroes - split; |
| |
| match name[split..end].parse() { |
| Ok(n) => (&name[..split], n, num_zeroes), |
| Err(_) => (name, 0, num_zeroes), |
| } |
| } |
| |
| fn item_module(w: &mut Buffer, cx: &Context, item: &clean::Item, items: &[clean::Item]) { |
| document(w, cx, item); |
| |
| let mut indices = (0..items.len()).filter(|i| !items[*i].is_stripped()).collect::<Vec<usize>>(); |
| |
| // the order of item types in the listing |
| fn reorder(ty: ItemType) -> u8 { |
| match ty { |
| ItemType::ExternCrate => 0, |
| ItemType::Import => 1, |
| ItemType::Primitive => 2, |
| ItemType::Module => 3, |
| ItemType::Macro => 4, |
| ItemType::Struct => 5, |
| ItemType::Enum => 6, |
| ItemType::Constant => 7, |
| ItemType::Static => 8, |
| ItemType::Trait => 9, |
| ItemType::Function => 10, |
| ItemType::Typedef => 12, |
| ItemType::Union => 13, |
| _ => 14 + ty as u8, |
| } |
| } |
| |
| fn cmp(i1: &clean::Item, i2: &clean::Item, idx1: usize, idx2: usize) -> Ordering { |
| let ty1 = i1.type_(); |
| let ty2 = i2.type_(); |
| if ty1 != ty2 { |
| return (reorder(ty1), idx1).cmp(&(reorder(ty2), idx2)); |
| } |
| let s1 = i1.stability.as_ref().map(|s| s.level); |
| let s2 = i2.stability.as_ref().map(|s| s.level); |
| match (s1, s2) { |
| (Some(stability::Unstable), Some(stability::Stable)) => return Ordering::Greater, |
| (Some(stability::Stable), Some(stability::Unstable)) => return Ordering::Less, |
| _ => {} |
| } |
| let lhs = i1.name.as_ref().map_or("", |s| &**s); |
| let rhs = i2.name.as_ref().map_or("", |s| &**s); |
| name_key(lhs).cmp(&name_key(rhs)) |
| } |
| |
| if cx.shared.sort_modules_alphabetically { |
| indices.sort_by(|&i1, &i2| cmp(&items[i1], &items[i2], i1, i2)); |
| } |
| // This call is to remove re-export duplicates in cases such as: |
| // |
| // ``` |
| // pub mod foo { |
| // pub mod bar { |
| // pub trait Double { fn foo(); } |
| // } |
| // } |
| // |
| // pub use foo::bar::*; |
| // pub use foo::*; |
| // ``` |
| // |
| // `Double` will appear twice in the generated docs. |
| // |
| // FIXME: This code is quite ugly and could be improved. Small issue: DefId |
| // can be identical even if the elements are different (mostly in imports). |
| // So in case this is an import, we keep everything by adding a "unique id" |
| // (which is the position in the vector). |
| indices.dedup_by_key(|i| { |
| ( |
| items[*i].def_id, |
| if items[*i].name.as_ref().is_some() { Some(full_path(cx, &items[*i])) } else { None }, |
| items[*i].type_(), |
| if items[*i].is_import() { *i } else { 0 }, |
| ) |
| }); |
| |
| debug!("{:?}", indices); |
| let mut curty = None; |
| for &idx in &indices { |
| let myitem = &items[idx]; |
| if myitem.is_stripped() { |
| continue; |
| } |
| |
| let myty = Some(myitem.type_()); |
| if curty == Some(ItemType::ExternCrate) && myty == Some(ItemType::Import) { |
| // Put `extern crate` and `use` re-exports in the same section. |
| curty = myty; |
| } else if myty != curty { |
| if curty.is_some() { |
| write!(w, "</table>"); |
| } |
| curty = myty; |
| let (short, name) = item_ty_to_strs(&myty.unwrap()); |
| write!( |
| w, |
| "<h2 id='{id}' class='section-header'>\ |
| <a href=\"#{id}\">{name}</a></h2>\n<table>", |
| id = cx.derive_id(short.to_owned()), |
| name = name |
| ); |
| } |
| |
| match myitem.inner { |
| clean::ExternCrateItem(ref name, ref src) => { |
| use crate::html::format::anchor; |
| |
| match *src { |
| Some(ref src) => write!( |
| w, |
| "<tr><td><code>{}extern crate {} as {};", |
| myitem.visibility.print_with_space(), |
| anchor(myitem.def_id, src), |
| name |
| ), |
| None => write!( |
| w, |
| "<tr><td><code>{}extern crate {};", |
| myitem.visibility.print_with_space(), |
| anchor(myitem.def_id, name) |
| ), |
| } |
| write!(w, "</code></td></tr>"); |
| } |
| |
| clean::ImportItem(ref import) => { |
| write!( |
| w, |
| "<tr><td><code>{}{}</code></td></tr>", |
| myitem.visibility.print_with_space(), |
| import.print() |
| ); |
| } |
| |
| _ => { |
| if myitem.name.is_none() { |
| continue; |
| } |
| |
| let unsafety_flag = match myitem.inner { |
| clean::FunctionItem(ref func) | clean::ForeignFunctionItem(ref func) |
| if func.header.unsafety == hir::Unsafety::Unsafe => |
| { |
| "<a title='unsafe function' href='#'><sup>⚠</sup></a>" |
| } |
| _ => "", |
| }; |
| |
| let stab = myitem.stability_class(); |
| let add = if stab.is_some() { " " } else { "" }; |
| |
| let doc_value = myitem.doc_value().unwrap_or(""); |
| write!( |
| w, |
| "\ |
| <tr class='{stab}{add}module-item'>\ |
| <td><a class=\"{class}\" href=\"{href}\" \ |
| title='{title}'>{name}</a>{unsafety_flag}</td>\ |
| <td class='docblock-short'>{stab_tags}{docs}</td>\ |
| </tr>", |
| name = *myitem.name.as_ref().unwrap(), |
| stab_tags = stability_tags(myitem), |
| docs = MarkdownSummaryLine(doc_value, &myitem.links()).to_string(), |
| class = myitem.type_(), |
| add = add, |
| stab = stab.unwrap_or_else(|| String::new()), |
| unsafety_flag = unsafety_flag, |
| href = item_path(myitem.type_(), myitem.name.as_ref().unwrap()), |
| title = [full_path(cx, myitem), myitem.type_().to_string()] |
| .iter() |
| .filter_map(|s| if !s.is_empty() { Some(s.as_str()) } else { None }) |
| .collect::<Vec<_>>() |
| .join(" "), |
| ); |
| } |
| } |
| } |
| |
| if curty.is_some() { |
| write!(w, "</table>"); |
| } |
| } |
| |
| /// Render the stability and deprecation tags that are displayed in the item's summary at the |
| /// module level. |
| fn stability_tags(item: &clean::Item) -> String { |
| let mut tags = String::new(); |
| |
| fn tag_html(class: &str, contents: &str) -> String { |
| format!(r#"<span class="stab {}">{}</span>"#, class, contents) |
| } |
| |
| // The trailing space after each tag is to space it properly against the rest of the docs. |
| if item.deprecation().is_some() { |
| let mut message = "Deprecated"; |
| if let Some(ref stab) = item.stability { |
| if let Some(ref depr) = stab.deprecation { |
| if let Some(ref since) = depr.since { |
| if !stability::deprecation_in_effect(&since) { |
| message = "Deprecation planned"; |
| } |
| } |
| } |
| } |
| tags += &tag_html("deprecated", message); |
| } |
| |
| if let Some(stab) = item.stability.as_ref().filter(|s| s.level == stability::Unstable) { |
| if stab.feature.as_deref() == Some("rustc_private") { |
| tags += &tag_html("internal", "Internal"); |
| } else { |
| tags += &tag_html("unstable", "Experimental"); |
| } |
| } |
| |
| if let Some(ref cfg) = item.attrs.cfg { |
| tags += &tag_html("portability", &cfg.render_short_html()); |
| } |
| |
| tags |
| } |
| |
| /// Render the stability and/or deprecation warning that is displayed at the top of the item's |
| /// documentation. |
| fn short_stability(item: &clean::Item, cx: &Context) -> Vec<String> { |
| let mut stability = vec![]; |
| let error_codes = cx.shared.codes; |
| |
| if let Some(Deprecation { note, since }) = &item.deprecation() { |
| // We display deprecation messages for #[deprecated] and #[rustc_deprecated] |
| // but only display the future-deprecation messages for #[rustc_deprecated]. |
| let mut message = if let Some(since) = since { |
| format!("Deprecated since {}", Escape(since)) |
| } else { |
| String::from("Deprecated") |
| }; |
| if let Some(ref stab) = item.stability { |
| if let Some(ref depr) = stab.deprecation { |
| if let Some(ref since) = depr.since { |
| if !stability::deprecation_in_effect(&since) { |
| message = format!("Deprecating in {}", Escape(&since)); |
| } |
| } |
| } |
| } |
| |
| if let Some(note) = note { |
| let mut ids = cx.id_map.borrow_mut(); |
| let html = MarkdownHtml( |
| ¬e, |
| &mut ids, |
| error_codes, |
| cx.shared.edition, |
| &cx.shared.playground, |
| ); |
| message.push_str(&format!(": {}", html.to_string())); |
| } |
| stability.push(format!("<div class='stab deprecated'>{}</div>", message)); |
| } |
| |
| if let Some(stab) = item.stability.as_ref().filter(|stab| stab.level == stability::Unstable) { |
| let is_rustc_private = stab.feature.as_deref() == Some("rustc_private"); |
| |
| let mut message = if is_rustc_private { |
| "<span class='emoji'>⚙️</span> This is an internal compiler API." |
| } else { |
| "<span class='emoji'>🔬</span> This is a nightly-only experimental API." |
| } |
| .to_owned(); |
| |
| if let Some(feature) = stab.feature.as_deref() { |
| let mut feature = format!("<code>{}</code>", Escape(&feature)); |
| if let (Some(url), Some(issue)) = (&cx.shared.issue_tracker_base_url, stab.issue) { |
| feature.push_str(&format!( |
| " <a href=\"{url}{issue}\">#{issue}</a>", |
| url = url, |
| issue = issue |
| )); |
| } |
| |
| message.push_str(&format!(" ({})", feature)); |
| } |
| |
| if let Some(unstable_reason) = &stab.unstable_reason { |
| // Provide a more informative message than the compiler help. |
| let unstable_reason = if is_rustc_private { |
| "This crate is being loaded from the sysroot, a permanently unstable location \ |
| for private compiler dependencies. It is not intended for general use. Prefer \ |
| using a public version of this crate from \ |
| [crates.io](https://crates.io) via [`Cargo.toml`]\ |
| (https://doc.rust-lang.org/cargo/reference/specifying-dependencies.html)." |
| } else { |
| unstable_reason |
| }; |
| |
| let mut ids = cx.id_map.borrow_mut(); |
| message = format!( |
| "<details><summary>{}</summary>{}</details>", |
| message, |
| MarkdownHtml( |
| &unstable_reason, |
| &mut ids, |
| error_codes, |
| cx.shared.edition, |
| &cx.shared.playground, |
| ) |
| .to_string() |
| ); |
| } |
| |
| let class = if is_rustc_private { "internal" } else { "unstable" }; |
| stability.push(format!("<div class='stab {}'>{}</div>", class, message)); |
| } |
| |
| if let Some(ref cfg) = item.attrs.cfg { |
| stability.push(format!("<div class='stab portability'>{}</div>", cfg.render_long_html())); |
| } |
| |
| stability |
| } |
| |
| fn item_constant(w: &mut Buffer, cx: &Context, it: &clean::Item, c: &clean::Constant) { |
| write!(w, "<pre class='rust const'>"); |
| render_attributes(w, it, false); |
| |
| write!( |
| w, |
| "{vis}const \ |
| {name}: {typ}", |
| vis = it.visibility.print_with_space(), |
| name = it.name.as_ref().unwrap(), |
| typ = c.type_.print(), |
| ); |
| |
| if c.value.is_some() || c.is_literal { |
| write!(w, " = {expr};", expr = c.expr); |
| } else { |
| write!(w, ";"); |
| } |
| |
| if let Some(value) = &c.value { |
| if !c.is_literal { |
| let value_lowercase = value.to_lowercase(); |
| let expr_lowercase = c.expr.to_lowercase(); |
| |
| if value_lowercase != expr_lowercase |
| && value_lowercase.trim_end_matches("i32") != expr_lowercase |
| { |
| write!(w, " // {value}", value = value); |
| } |
| } |
| } |
| |
| write!(w, "</pre>"); |
| document(w, cx, it) |
| } |
| |
| fn item_static(w: &mut Buffer, cx: &Context, it: &clean::Item, s: &clean::Static) { |
| write!(w, "<pre class='rust static'>"); |
| render_attributes(w, it, false); |
| write!( |
| w, |
| "{vis}static {mutability}\ |
| {name}: {typ}</pre>", |
| vis = it.visibility.print_with_space(), |
| mutability = s.mutability.print_with_space(), |
| name = it.name.as_ref().unwrap(), |
| typ = s.type_.print() |
| ); |
| document(w, cx, it) |
| } |
| |
| fn item_function(w: &mut Buffer, cx: &Context, it: &clean::Item, f: &clean::Function) { |
| let header_len = format!( |
| "{}{}{}{}{:#}fn {}{:#}", |
| it.visibility.print_with_space(), |
| f.header.constness.print_with_space(), |
| f.header.unsafety.print_with_space(), |
| f.header.asyncness.print_with_space(), |
| print_abi_with_space(f.header.abi), |
| it.name.as_ref().unwrap(), |
| f.generics.print() |
| ) |
| .len(); |
| write!(w, "{}<pre class='rust fn'>", render_spotlight_traits(it)); |
| render_attributes(w, it, false); |
| write!( |
| w, |
| "{vis}{constness}{unsafety}{asyncness}{abi}fn \ |
| {name}{generics}{decl}{where_clause}</pre>", |
| vis = it.visibility.print_with_space(), |
| constness = f.header.constness.print_with_space(), |
| unsafety = f.header.unsafety.print_with_space(), |
| asyncness = f.header.asyncness.print_with_space(), |
| abi = print_abi_with_space(f.header.abi), |
| name = it.name.as_ref().unwrap(), |
| generics = f.generics.print(), |
| where_clause = WhereClause { gens: &f.generics, indent: 0, end_newline: true }, |
| decl = Function { decl: &f.decl, header_len, indent: 0, asyncness: f.header.asyncness } |
| .print() |
| ); |
| document(w, cx, it) |
| } |
| |
| fn render_implementor( |
| cx: &Context, |
| implementor: &Impl, |
| w: &mut Buffer, |
| implementor_dups: &FxHashMap<&str, (DefId, bool)>, |
| ) { |
| // If there's already another implementor that has the same abbridged name, use the |
| // full path, for example in `std::iter::ExactSizeIterator` |
| let use_absolute = match implementor.inner_impl().for_ { |
| clean::ResolvedPath { ref path, is_generic: false, .. } |
| | clean::BorrowedRef { |
| type_: box clean::ResolvedPath { ref path, is_generic: false, .. }, |
| .. |
| } => implementor_dups[path.last_name()].1, |
| _ => false, |
| }; |
| render_impl( |
| w, |
| cx, |
| implementor, |
| AssocItemLink::Anchor(None), |
| RenderMode::Normal, |
| implementor.impl_item.stable_since(), |
| false, |
| Some(use_absolute), |
| false, |
| false, |
| ); |
| } |
| |
| fn render_impls(cx: &Context, w: &mut Buffer, traits: &[&&Impl], containing_item: &clean::Item) { |
| let mut impls = traits |
| .iter() |
| .map(|i| { |
| let did = i.trait_did().unwrap(); |
| let assoc_link = AssocItemLink::GotoSource(did, &i.inner_impl().provided_trait_methods); |
| let mut buffer = if w.is_for_html() { Buffer::html() } else { Buffer::new() }; |
| render_impl( |
| &mut buffer, |
| cx, |
| i, |
| assoc_link, |
| RenderMode::Normal, |
| containing_item.stable_since(), |
| true, |
| None, |
| false, |
| true, |
| ); |
| buffer.into_inner() |
| }) |
| .collect::<Vec<_>>(); |
| impls.sort(); |
| w.write_str(&impls.join("")); |
| } |
| |
| fn bounds(t_bounds: &[clean::GenericBound], trait_alias: bool) -> String { |
| let mut bounds = String::new(); |
| if !t_bounds.is_empty() { |
| if !trait_alias { |
| bounds.push_str(": "); |
| } |
| for (i, p) in t_bounds.iter().enumerate() { |
| if i > 0 { |
| bounds.push_str(" + "); |
| } |
| bounds.push_str(&p.print().to_string()); |
| } |
| } |
| bounds |
| } |
| |
| fn compare_impl<'a, 'b>(lhs: &'a &&Impl, rhs: &'b &&Impl) -> Ordering { |
| let lhs = format!("{}", lhs.inner_impl().print()); |
| let rhs = format!("{}", rhs.inner_impl().print()); |
| |
| // lhs and rhs are formatted as HTML, which may be unnecessary |
| name_key(&lhs).cmp(&name_key(&rhs)) |
| } |
| |
| fn item_trait(w: &mut Buffer, cx: &Context, it: &clean::Item, t: &clean::Trait) { |
| let bounds = bounds(&t.bounds, false); |
| let types = t.items.iter().filter(|m| m.is_associated_type()).collect::<Vec<_>>(); |
| let consts = t.items.iter().filter(|m| m.is_associated_const()).collect::<Vec<_>>(); |
| let required = t.items.iter().filter(|m| m.is_ty_method()).collect::<Vec<_>>(); |
| let provided = t.items.iter().filter(|m| m.is_method()).collect::<Vec<_>>(); |
| |
| // Output the trait definition |
| wrap_into_docblock(w, |w| { |
| write!(w, "<pre class='rust trait'>"); |
| render_attributes(w, it, true); |
| write!( |
| w, |
| "{}{}{}trait {}{}{}", |
| it.visibility.print_with_space(), |
| t.unsafety.print_with_space(), |
| if t.is_auto { "auto " } else { "" }, |
| it.name.as_ref().unwrap(), |
| t.generics.print(), |
| bounds |
| ); |
| |
| if !t.generics.where_predicates.is_empty() { |
| write!(w, "{}", WhereClause { gens: &t.generics, indent: 0, end_newline: true }); |
| } else { |
| write!(w, " "); |
| } |
| |
| if t.items.is_empty() { |
| write!(w, "{{ }}"); |
| } else { |
| // FIXME: we should be using a derived_id for the Anchors here |
| write!(w, "{{\n"); |
| for t in &types { |
| render_assoc_item(w, t, AssocItemLink::Anchor(None), ItemType::Trait); |
| write!(w, ";\n"); |
| } |
| if !types.is_empty() && !consts.is_empty() { |
| w.write_str("\n"); |
| } |
| for t in &consts { |
| render_assoc_item(w, t, AssocItemLink::Anchor(None), ItemType::Trait); |
| write!(w, ";\n"); |
| } |
| if !consts.is_empty() && !required.is_empty() { |
| w.write_str("\n"); |
| } |
| for (pos, m) in required.iter().enumerate() { |
| render_assoc_item(w, m, AssocItemLink::Anchor(None), ItemType::Trait); |
| write!(w, ";\n"); |
| |
| if pos < required.len() - 1 { |
| write!(w, "<div class='item-spacer'></div>"); |
| } |
| } |
| if !required.is_empty() && !provided.is_empty() { |
| w.write_str("\n"); |
| } |
| for (pos, m) in provided.iter().enumerate() { |
| render_assoc_item(w, m, AssocItemLink::Anchor(None), ItemType::Trait); |
| match m.inner { |
| clean::MethodItem(ref inner) if !inner.generics.where_predicates.is_empty() => { |
| write!(w, ",\n {{ ... }}\n"); |
| } |
| _ => { |
| write!(w, " {{ ... }}\n"); |
| } |
| } |
| if pos < provided.len() - 1 { |
| write!(w, "<div class='item-spacer'></div>"); |
| } |
| } |
| write!(w, "}}"); |
| } |
| write!(w, "</pre>") |
| }); |
| |
| // Trait documentation |
| document(w, cx, it); |
| |
| fn write_small_section_header(w: &mut Buffer, id: &str, title: &str, extra_content: &str) { |
| write!( |
| w, |
| " |
| <h2 id='{0}' class='small-section-header'>\ |
| {1}<a href='#{0}' class='anchor'></a>\ |
| </h2>{2}", |
| id, title, extra_content |
| ) |
| } |
| |
| fn write_loading_content(w: &mut Buffer, extra_content: &str) { |
| write!(w, "{}<span class='loading-content'>Loading content...</span>", extra_content) |
| } |
| |
| fn trait_item(w: &mut Buffer, cx: &Context, m: &clean::Item, t: &clean::Item) { |
| let name = m.name.as_ref().unwrap(); |
| let item_type = m.type_(); |
| let id = cx.derive_id(format!("{}.{}", item_type, name)); |
| let ns_id = cx.derive_id(format!("{}.{}", name, item_type.name_space())); |
| write!( |
| w, |
| "<h3 id='{id}' class='method'>{extra}<code id='{ns_id}'>", |
| extra = render_spotlight_traits(m), |
| id = id, |
| ns_id = ns_id |
| ); |
| render_assoc_item(w, m, AssocItemLink::Anchor(Some(&id)), ItemType::Impl); |
| write!(w, "</code>"); |
| render_stability_since(w, m, t); |
| write!(w, "</h3>"); |
| document(w, cx, m); |
| } |
| |
| if !types.is_empty() { |
| write_small_section_header( |
| w, |
| "associated-types", |
| "Associated Types", |
| "<div class='methods'>", |
| ); |
| for t in &types { |
| trait_item(w, cx, *t, it); |
| } |
| write_loading_content(w, "</div>"); |
| } |
| |
| if !consts.is_empty() { |
| write_small_section_header( |
| w, |
| "associated-const", |
| "Associated Constants", |
| "<div class='methods'>", |
| ); |
| for t in &consts { |
| trait_item(w, cx, *t, it); |
| } |
| write_loading_content(w, "</div>"); |
| } |
| |
| // Output the documentation for each function individually |
| if !required.is_empty() { |
| write_small_section_header( |
| w, |
| "required-methods", |
| "Required methods", |
| "<div class='methods'>", |
| ); |
| for m in &required { |
| trait_item(w, cx, *m, it); |
| } |
| write_loading_content(w, "</div>"); |
| } |
| if !provided.is_empty() { |
| write_small_section_header( |
| w, |
| "provided-methods", |
| "Provided methods", |
| "<div class='methods'>", |
| ); |
| for m in &provided { |
| trait_item(w, cx, *m, it); |
| } |
| write_loading_content(w, "</div>"); |
| } |
| |
| // If there are methods directly on this trait object, render them here. |
| render_assoc_items(w, cx, it, it.def_id, AssocItemRender::All); |
| |
| let mut synthetic_types = Vec::new(); |
| |
| if let Some(implementors) = cx.cache.implementors.get(&it.def_id) { |
| // The DefId is for the first Type found with that name. The bool is |
| // if any Types with the same name but different DefId have been found. |
| let mut implementor_dups: FxHashMap<&str, (DefId, bool)> = FxHashMap::default(); |
| for implementor in implementors { |
| match implementor.inner_impl().for_ { |
| clean::ResolvedPath { ref path, did, is_generic: false, .. } |
| | clean::BorrowedRef { |
| type_: box clean::ResolvedPath { ref path, did, is_generic: false, .. }, |
| .. |
| } => { |
| let &mut (prev_did, ref mut has_duplicates) = |
| implementor_dups.entry(path.last_name()).or_insert((did, false)); |
| if prev_did != did { |
| *has_duplicates = true; |
| } |
| } |
| _ => {} |
| } |
| } |
| |
| let (local, foreign) = implementors.iter().partition::<Vec<_>, _>(|i| { |
| i.inner_impl().for_.def_id().map_or(true, |d| cx.cache.paths.contains_key(&d)) |
| }); |
| |
| let (mut synthetic, mut concrete): (Vec<&&Impl>, Vec<&&Impl>) = |
| local.iter().partition(|i| i.inner_impl().synthetic); |
| |
| synthetic.sort_by(compare_impl); |
| concrete.sort_by(compare_impl); |
| |
| if !foreign.is_empty() { |
| write_small_section_header(w, "foreign-impls", "Implementations on Foreign Types", ""); |
| |
| for implementor in foreign { |
| let assoc_link = AssocItemLink::GotoSource( |
| implementor.impl_item.def_id, |
| &implementor.inner_impl().provided_trait_methods, |
| ); |
| render_impl( |
| w, |
| cx, |
| &implementor, |
| assoc_link, |
| RenderMode::Normal, |
| implementor.impl_item.stable_since(), |
| false, |
| None, |
| true, |
| false, |
| ); |
| } |
| write_loading_content(w, ""); |
| } |
| |
| write_small_section_header( |
| w, |
| "implementors", |
| "Implementors", |
| "<div class='item-list' id='implementors-list'>", |
| ); |
| for implementor in concrete { |
| render_implementor(cx, implementor, w, &implementor_dups); |
| } |
| write_loading_content(w, "</div>"); |
| |
| if t.auto { |
| write_small_section_header( |
| w, |
| "synthetic-implementors", |
| "Auto implementors", |
| "<div class='item-list' id='synthetic-implementors-list'>", |
| ); |
| for implementor in synthetic { |
| synthetic_types |
| .extend(collect_paths_for_type(implementor.inner_impl().for_.clone())); |
| render_implementor(cx, implementor, w, &implementor_dups); |
| } |
| write_loading_content(w, "</div>"); |
| } |
| } else { |
| // even without any implementations to write in, we still want the heading and list, so the |
| // implementors javascript file pulled in below has somewhere to write the impls into |
| write_small_section_header( |
| w, |
| "implementors", |
| "Implementors", |
| "<div class='item-list' id='implementors-list'>", |
| ); |
| write_loading_content(w, "</div>"); |
| |
| if t.auto { |
| write_small_section_header( |
| w, |
| "synthetic-implementors", |
| "Auto implementors", |
| "<div class='item-list' id='synthetic-implementors-list'>", |
| ); |
| write_loading_content(w, "</div>"); |
| } |
| } |
| write!( |
| w, |
| r#"<script type="text/javascript">window.inlined_types=new Set({});</script>"#, |
| serde_json::to_string(&synthetic_types).unwrap(), |
| ); |
| |
| write!( |
| w, |
| r#"<script type="text/javascript" async |
| src="{root_path}/implementors/{path}/{ty}.{name}.js"> |
| </script>"#, |
| root_path = vec![".."; cx.current.len()].join("/"), |
| path = if it.def_id.is_local() { |
| cx.current.join("/") |
| } else { |
| let (ref path, _) = cx.cache.external_paths[&it.def_id]; |
| path[..path.len() - 1].join("/") |
| }, |
| ty = it.type_(), |
| name = *it.name.as_ref().unwrap() |
| ); |
| } |
| |
| fn naive_assoc_href(it: &clean::Item, link: AssocItemLink<'_>) -> String { |
| use crate::html::item_type::ItemType::*; |
| |
| let name = it.name.as_ref().unwrap(); |
| let ty = match it.type_() { |
| Typedef | AssocType => AssocType, |
| s @ _ => s, |
| }; |
| |
| let anchor = format!("#{}.{}", ty, name); |
| match link { |
| AssocItemLink::Anchor(Some(ref id)) => format!("#{}", id), |
| AssocItemLink::Anchor(None) => anchor, |
| AssocItemLink::GotoSource(did, _) => { |
| href(did).map(|p| format!("{}{}", p.0, anchor)).unwrap_or(anchor) |
| } |
| } |
| } |
| |
| fn assoc_const( |
| w: &mut Buffer, |
| it: &clean::Item, |
| ty: &clean::Type, |
| _default: Option<&String>, |
| link: AssocItemLink<'_>, |
| extra: &str, |
| ) { |
| write!( |
| w, |
| "{}{}const <a href='{}' class=\"constant\"><b>{}</b></a>: {}", |
| extra, |
| it.visibility.print_with_space(), |
| naive_assoc_href(it, link), |
| it.name.as_ref().unwrap(), |
| ty.print() |
| ); |
| } |
| |
| fn assoc_type( |
| w: &mut Buffer, |
| it: &clean::Item, |
| bounds: &[clean::GenericBound], |
| default: Option<&clean::Type>, |
| link: AssocItemLink<'_>, |
| extra: &str, |
| ) { |
| write!( |
| w, |
| "{}type <a href='{}' class=\"type\">{}</a>", |
| extra, |
| naive_assoc_href(it, link), |
| it.name.as_ref().unwrap() |
| ); |
| if !bounds.is_empty() { |
| write!(w, ": {}", print_generic_bounds(bounds)) |
| } |
| if let Some(default) = default { |
| write!(w, " = {}", default.print()) |
| } |
| } |
| |
| fn render_stability_since_raw(w: &mut Buffer, ver: Option<&str>, containing_ver: Option<&str>) { |
| if let Some(v) = ver { |
| if containing_ver != ver && v.len() > 0 { |
| write!(w, "<span class='since' title='Stable since Rust version {0}'>{0}</span>", v) |
| } |
| } |
| } |
| |
| fn render_stability_since(w: &mut Buffer, item: &clean::Item, containing_item: &clean::Item) { |
| render_stability_since_raw(w, item.stable_since(), containing_item.stable_since()) |
| } |
| |
| fn render_assoc_item( |
| w: &mut Buffer, |
| item: &clean::Item, |
| link: AssocItemLink<'_>, |
| parent: ItemType, |
| ) { |
| fn method( |
| w: &mut Buffer, |
| meth: &clean::Item, |
| header: hir::FnHeader, |
| g: &clean::Generics, |
| d: &clean::FnDecl, |
| link: AssocItemLink<'_>, |
| parent: ItemType, |
| ) { |
| let name = meth.name.as_ref().unwrap(); |
| let anchor = format!("#{}.{}", meth.type_(), name); |
| let href = match link { |
| AssocItemLink::Anchor(Some(ref id)) => format!("#{}", id), |
| AssocItemLink::Anchor(None) => anchor, |
| AssocItemLink::GotoSource(did, provided_methods) => { |
| // We're creating a link from an impl-item to the corresponding |
| // trait-item and need to map the anchored type accordingly. |
| let ty = if provided_methods.contains(name) { |
| ItemType::Method |
| } else { |
| ItemType::TyMethod |
| }; |
| |
| href(did).map(|p| format!("{}#{}.{}", p.0, ty, name)).unwrap_or(anchor) |
| } |
| }; |
| let mut header_len = format!( |
| "{}{}{}{}{}{:#}fn {}{:#}", |
| meth.visibility.print_with_space(), |
| header.constness.print_with_space(), |
| header.unsafety.print_with_space(), |
| header.asyncness.print_with_space(), |
| print_default_space(meth.is_default()), |
| print_abi_with_space(header.abi), |
| name, |
| g.print() |
| ) |
| .len(); |
| let (indent, end_newline) = if parent == ItemType::Trait { |
| header_len += 4; |
| (4, false) |
| } else { |
| (0, true) |
| }; |
| render_attributes(w, meth, false); |
| write!( |
| w, |
| "{}{}{}{}{}{}{}fn <a href='{href}' class='fnname'>{name}</a>\ |
| {generics}{decl}{where_clause}", |
| if parent == ItemType::Trait { " " } else { "" }, |
| meth.visibility.print_with_space(), |
| header.constness.print_with_space(), |
| header.unsafety.print_with_space(), |
| header.asyncness.print_with_space(), |
| print_default_space(meth.is_default()), |
| print_abi_with_space(header.abi), |
| href = href, |
| name = name, |
| generics = g.print(), |
| decl = Function { decl: d, header_len, indent, asyncness: header.asyncness }.print(), |
| where_clause = WhereClause { gens: g, indent, end_newline } |
| ) |
| } |
| match item.inner { |
| clean::StrippedItem(..) => {} |
| clean::TyMethodItem(ref m) => method(w, item, m.header, &m.generics, &m.decl, link, parent), |
| clean::MethodItem(ref m) => method(w, item, m.header, &m.generics, &m.decl, link, parent), |
| clean::AssocConstItem(ref ty, ref default) => assoc_const( |
| w, |
| item, |
| ty, |
| default.as_ref(), |
| link, |
| if parent == ItemType::Trait { " " } else { "" }, |
| ), |
| clean::AssocTypeItem(ref bounds, ref default) => assoc_type( |
| w, |
| item, |
| bounds, |
| default.as_ref(), |
| link, |
| if parent == ItemType::Trait { " " } else { "" }, |
| ), |
| _ => panic!("render_assoc_item called on non-associated-item"), |
| } |
| } |
| |
| fn item_struct(w: &mut Buffer, cx: &Context, it: &clean::Item, s: &clean::Struct) { |
| wrap_into_docblock(w, |w| { |
| write!(w, "<pre class='rust struct'>"); |
| render_attributes(w, it, true); |
| render_struct(w, it, Some(&s.generics), s.struct_type, &s.fields, "", true); |
| write!(w, "</pre>") |
| }); |
| |
| document(w, cx, it); |
| let mut fields = s |
| .fields |
| .iter() |
| .filter_map(|f| match f.inner { |
| clean::StructFieldItem(ref ty) => Some((f, ty)), |
| _ => None, |
| }) |
| .peekable(); |
| if let doctree::Plain = s.struct_type { |
| if fields.peek().is_some() { |
| write!( |
| w, |
| "<h2 id='fields' class='fields small-section-header'> |
| Fields{}<a href='#fields' class='anchor'></a></h2>", |
| document_non_exhaustive_header(it) |
| ); |
| document_non_exhaustive(w, it); |
| for (field, ty) in fields { |
| let id = cx.derive_id(format!( |
| "{}.{}", |
| ItemType::StructField, |
| field.name.as_ref().unwrap() |
| )); |
| let ns_id = cx.derive_id(format!( |
| "{}.{}", |
| field.name.as_ref().unwrap(), |
| ItemType::StructField.name_space() |
| )); |
| write!( |
| w, |
| "<span id=\"{id}\" class=\"{item_type} small-section-header\">\ |
| <a href=\"#{id}\" class=\"anchor field\"></a>\ |
| <code id=\"{ns_id}\">{name}: {ty}</code>\ |
| </span>", |
| item_type = ItemType::StructField, |
| id = id, |
| ns_id = ns_id, |
| name = field.name.as_ref().unwrap(), |
| ty = ty.print() |
| ); |
| document(w, cx, field); |
| } |
| } |
| } |
| render_assoc_items(w, cx, it, it.def_id, AssocItemRender::All) |
| } |
| |
| fn item_union(w: &mut Buffer, cx: &Context, it: &clean::Item, s: &clean::Union) { |
| wrap_into_docblock(w, |w| { |
| write!(w, "<pre class='rust union'>"); |
| render_attributes(w, it, true); |
| render_union(w, it, Some(&s.generics), &s.fields, "", true); |
| write!(w, "</pre>") |
| }); |
| |
| document(w, cx, it); |
| let mut fields = s |
| .fields |
| .iter() |
| .filter_map(|f| match f.inner { |
| clean::StructFieldItem(ref ty) => Some((f, ty)), |
| _ => None, |
| }) |
| .peekable(); |
| if fields.peek().is_some() { |
| write!( |
| w, |
| "<h2 id='fields' class='fields small-section-header'> |
| Fields<a href='#fields' class='anchor'></a></h2>" |
| ); |
| for (field, ty) in fields { |
| let name = field.name.as_ref().expect("union field name"); |
| let id = format!("{}.{}", ItemType::StructField, name); |
| write!( |
| w, |
| "<span id=\"{id}\" class=\"{shortty} small-section-header\">\ |
| <a href=\"#{id}\" class=\"anchor field\"></a>\ |
| <code>{name}: {ty}</code>\ |
| </span>", |
| id = id, |
| name = name, |
| shortty = ItemType::StructField, |
| ty = ty.print() |
| ); |
| if let Some(stability_class) = field.stability_class() { |
| write!(w, "<span class='stab {stab}'></span>", stab = stability_class); |
| } |
| document(w, cx, field); |
| } |
| } |
| render_assoc_items(w, cx, it, it.def_id, AssocItemRender::All) |
| } |
| |
| fn item_enum(w: &mut Buffer, cx: &Context, it: &clean::Item, e: &clean::Enum) { |
| wrap_into_docblock(w, |w| { |
| write!(w, "<pre class='rust enum'>"); |
| render_attributes(w, it, true); |
| write!( |
| w, |
| "{}enum {}{}{}", |
| it.visibility.print_with_space(), |
| it.name.as_ref().unwrap(), |
| e.generics.print(), |
| WhereClause { gens: &e.generics, indent: 0, end_newline: true } |
| ); |
| if e.variants.is_empty() && !e.variants_stripped { |
| write!(w, " {{}}"); |
| } else { |
| write!(w, " {{\n"); |
| for v in &e.variants { |
| write!(w, " "); |
| let name = v.name.as_ref().unwrap(); |
| match v.inner { |
| clean::VariantItem(ref var) => match var.kind { |
| clean::VariantKind::CLike => write!(w, "{}", name), |
| clean::VariantKind::Tuple(ref tys) => { |
| write!(w, "{}(", name); |
| for (i, ty) in tys.iter().enumerate() { |
| if i > 0 { |
| write!(w, ", ") |
| } |
| write!(w, "{}", ty.print()); |
| } |
| write!(w, ")"); |
| } |
| clean::VariantKind::Struct(ref s) => { |
| render_struct(w, v, None, s.struct_type, &s.fields, " ", false); |
| } |
| }, |
| _ => unreachable!(), |
| } |
| write!(w, ",\n"); |
| } |
| |
| if e.variants_stripped { |
| write!(w, " // some variants omitted\n"); |
| } |
| write!(w, "}}"); |
| } |
| write!(w, "</pre>") |
| }); |
| |
| document(w, cx, it); |
| if !e.variants.is_empty() { |
| write!( |
| w, |
| "<h2 id='variants' class='variants small-section-header'> |
| Variants{}<a href='#variants' class='anchor'></a></h2>\n", |
| document_non_exhaustive_header(it) |
| ); |
| document_non_exhaustive(w, it); |
| for variant in &e.variants { |
| let id = |
| cx.derive_id(format!("{}.{}", ItemType::Variant, variant.name.as_ref().unwrap())); |
| let ns_id = cx.derive_id(format!( |
| "{}.{}", |
| variant.name.as_ref().unwrap(), |
| ItemType::Variant.name_space() |
| )); |
| write!( |
| w, |
| "<div id=\"{id}\" class=\"variant small-section-header\">\ |
| <a href=\"#{id}\" class=\"anchor field\"></a>\ |
| <code id='{ns_id}'>{name}", |
| id = id, |
| ns_id = ns_id, |
| name = variant.name.as_ref().unwrap() |
| ); |
| if let clean::VariantItem(ref var) = variant.inner { |
| if let clean::VariantKind::Tuple(ref tys) = var.kind { |
| write!(w, "("); |
| for (i, ty) in tys.iter().enumerate() { |
| if i > 0 { |
| write!(w, ", "); |
| } |
| write!(w, "{}", ty.print()); |
| } |
| write!(w, ")"); |
| } |
| } |
| write!(w, "</code></div>"); |
| document(w, cx, variant); |
| document_non_exhaustive(w, variant); |
| |
| use crate::clean::{Variant, VariantKind}; |
| if let clean::VariantItem(Variant { kind: VariantKind::Struct(ref s) }) = variant.inner |
| { |
| let variant_id = cx.derive_id(format!( |
| "{}.{}.fields", |
| ItemType::Variant, |
| variant.name.as_ref().unwrap() |
| )); |
| write!(w, "<div class='autohide sub-variant' id='{id}'>", id = variant_id); |
| write!( |
| w, |
| "<h3>Fields of <b>{name}</b></h3><div>", |
| name = variant.name.as_ref().unwrap() |
| ); |
| for field in &s.fields { |
| use crate::clean::StructFieldItem; |
| if let StructFieldItem(ref ty) = field.inner { |
| let id = cx.derive_id(format!( |
| "variant.{}.field.{}", |
| variant.name.as_ref().unwrap(), |
| field.name.as_ref().unwrap() |
| )); |
| let ns_id = cx.derive_id(format!( |
| "{}.{}.{}.{}", |
| variant.name.as_ref().unwrap(), |
| ItemType::Variant.name_space(), |
| field.name.as_ref().unwrap(), |
| ItemType::StructField.name_space() |
| )); |
| write!( |
| w, |
| "<span id=\"{id}\" class=\"variant small-section-header\">\ |
| <a href=\"#{id}\" class=\"anchor field\"></a>\ |
| <code id='{ns_id}'>{f}: {t}\ |
| </code></span>", |
| id = id, |
| ns_id = ns_id, |
| f = field.name.as_ref().unwrap(), |
| t = ty.print() |
| ); |
| document(w, cx, field); |
| } |
| } |
| write!(w, "</div></div>"); |
| } |
| render_stability_since(w, variant, it); |
| } |
| } |
| render_assoc_items(w, cx, it, it.def_id, AssocItemRender::All) |
| } |
| |
| fn render_attribute(attr: &ast::MetaItem) -> Option<String> { |
| let path = pprust::path_to_string(&attr.path); |
| |
| if attr.is_word() { |
| Some(path) |
| } else if let Some(v) = attr.value_str() { |
| Some(format!("{} = {:?}", path, v)) |
| } else if let Some(values) = attr.meta_item_list() { |
| let display: Vec<_> = values |
| .iter() |
| .filter_map(|attr| attr.meta_item().and_then(|mi| render_attribute(mi))) |
| .collect(); |
| |
| if display.len() > 0 { Some(format!("{}({})", path, display.join(", "))) } else { None } |
| } else { |
| None |
| } |
| } |
| |
| const ATTRIBUTE_WHITELIST: &'static [Symbol] = &[ |
| sym::export_name, |
| sym::lang, |
| sym::link_section, |
| sym::must_use, |
| sym::no_mangle, |
| sym::repr, |
| sym::non_exhaustive, |
| ]; |
| |
| // The `top` parameter is used when generating the item declaration to ensure it doesn't have a |
| // left padding. For example: |
| // |
| // #[foo] <----- "top" attribute |
| // struct Foo { |
| // #[bar] <---- not "top" attribute |
| // bar: usize, |
| // } |
| fn render_attributes(w: &mut Buffer, it: &clean::Item, top: bool) { |
| let mut attrs = String::new(); |
| |
| for attr in &it.attrs.other_attrs { |
| if !ATTRIBUTE_WHITELIST.contains(&attr.name_or_empty()) { |
| continue; |
| } |
| if let Some(s) = render_attribute(&attr.meta().unwrap()) { |
| attrs.push_str(&format!("#[{}]\n", s)); |
| } |
| } |
| if attrs.len() > 0 { |
| write!( |
| w, |
| "<span class=\"docblock attributes{}\">{}</span>", |
| if top { " top-attr" } else { "" }, |
| &attrs |
| ); |
| } |
| } |
| |
| fn render_struct( |
| w: &mut Buffer, |
| it: &clean::Item, |
| g: Option<&clean::Generics>, |
| ty: doctree::StructType, |
| fields: &[clean::Item], |
| tab: &str, |
| structhead: bool, |
| ) { |
| write!( |
| w, |
| "{}{}{}", |
| it.visibility.print_with_space(), |
| if structhead { "struct " } else { "" }, |
| it.name.as_ref().unwrap() |
| ); |
| if let Some(g) = g { |
| write!(w, "{}", g.print()) |
| } |
| match ty { |
| doctree::Plain => { |
| if let Some(g) = g { |
| write!(w, "{}", WhereClause { gens: g, indent: 0, end_newline: true }) |
| } |
| let mut has_visible_fields = false; |
| write!(w, " {{"); |
| for field in fields { |
| if let clean::StructFieldItem(ref ty) = field.inner { |
| write!( |
| w, |
| "\n{} {}{}: {},", |
| tab, |
| field.visibility.print_with_space(), |
| field.name.as_ref().unwrap(), |
| ty.print() |
| ); |
| has_visible_fields = true; |
| } |
| } |
| |
| if has_visible_fields { |
| if it.has_stripped_fields().unwrap() { |
| write!(w, "\n{} // some fields omitted", tab); |
| } |
| write!(w, "\n{}", tab); |
| } else if it.has_stripped_fields().unwrap() { |
| // If there are no visible fields we can just display |
| // `{ /* fields omitted */ }` to save space. |
| write!(w, " /* fields omitted */ "); |
| } |
| write!(w, "}}"); |
| } |
| doctree::Tuple => { |
| write!(w, "("); |
| for (i, field) in fields.iter().enumerate() { |
| if i > 0 { |
| write!(w, ", "); |
| } |
| match field.inner { |
| clean::StrippedItem(box clean::StructFieldItem(..)) => write!(w, "_"), |
| clean::StructFieldItem(ref ty) => { |
| write!(w, "{}{}", field.visibility.print_with_space(), ty.print()) |
| } |
| _ => unreachable!(), |
| } |
| } |
| write!(w, ")"); |
| if let Some(g) = g { |
| write!(w, "{}", WhereClause { gens: g, indent: 0, end_newline: false }) |
| } |
| write!(w, ";"); |
| } |
| doctree::Unit => { |
| // Needed for PhantomData. |
| if let Some(g) = g { |
| write!(w, "{}", WhereClause { gens: g, indent: 0, end_newline: false }) |
| } |
| write!(w, ";"); |
| } |
| } |
| } |
| |
| fn render_union( |
| w: &mut Buffer, |
| it: &clean::Item, |
| g: Option<&clean::Generics>, |
| fields: &[clean::Item], |
| tab: &str, |
| structhead: bool, |
| ) { |
| write!( |
| w, |
| "{}{}{}", |
| it.visibility.print_with_space(), |
| if structhead { "union " } else { "" }, |
| it.name.as_ref().unwrap() |
| ); |
| if let Some(g) = g { |
| write!(w, "{}", g.print()); |
| write!(w, "{}", WhereClause { gens: g, indent: 0, end_newline: true }); |
| } |
| |
| write!(w, " {{\n{}", tab); |
| for field in fields { |
| if let clean::StructFieldItem(ref ty) = field.inner { |
| write!( |
| w, |
| " {}{}: {},\n{}", |
| field.visibility.print_with_space(), |
| field.name.as_ref().unwrap(), |
| ty.print(), |
| tab |
| ); |
| } |
| } |
| |
| if it.has_stripped_fields().unwrap() { |
| write!(w, " // some fields omitted\n{}", tab); |
| } |
| write!(w, "}}"); |
| } |
| |
| #[derive(Copy, Clone)] |
| enum AssocItemLink<'a> { |
| Anchor(Option<&'a str>), |
| GotoSource(DefId, &'a FxHashSet<String>), |
| } |
| |
| impl<'a> AssocItemLink<'a> { |
| fn anchor(&self, id: &'a String) -> Self { |
| match *self { |
| AssocItemLink::Anchor(_) => AssocItemLink::Anchor(Some(&id)), |
| ref other => *other, |
| } |
| } |
| } |
| |
| enum AssocItemRender<'a> { |
| All, |
| DerefFor { trait_: &'a clean::Type, type_: &'a clean::Type, deref_mut_: bool }, |
| } |
| |
| #[derive(Copy, Clone, PartialEq)] |
| enum RenderMode { |
| Normal, |
| ForDeref { mut_: bool }, |
| } |
| |
| fn render_assoc_items( |
| w: &mut Buffer, |
| cx: &Context, |
| containing_item: &clean::Item, |
| it: DefId, |
| what: AssocItemRender<'_>, |
| ) { |
| let c = &cx.cache; |
| let v = match c.impls.get(&it) { |
| Some(v) => v, |
| None => return, |
| }; |
| let (non_trait, traits): (Vec<_>, _) = v.iter().partition(|i| i.inner_impl().trait_.is_none()); |
| if !non_trait.is_empty() { |
| let render_mode = match what { |
| AssocItemRender::All => { |
| write!( |
| w, |
| "\ |
| <h2 id='methods' class='small-section-header'>\ |
| Methods<a href='#methods' class='anchor'></a>\ |
| </h2>\ |
| " |
| ); |
| RenderMode::Normal |
| } |
| AssocItemRender::DerefFor { trait_, type_, deref_mut_ } => { |
| write!( |
| w, |
| "\ |
| <h2 id='deref-methods' class='small-section-header'>\ |
| Methods from {}<Target = {}>\ |
| <a href='#deref-methods' class='anchor'></a>\ |
| </h2>\ |
| ", |
| trait_.print(), |
| type_.print() |
| ); |
| RenderMode::ForDeref { mut_: deref_mut_ } |
| } |
| }; |
| for i in &non_trait { |
| render_impl( |
| w, |
| cx, |
| i, |
| AssocItemLink::Anchor(None), |
| render_mode, |
| containing_item.stable_since(), |
| true, |
| None, |
| false, |
| true, |
| ); |
| } |
| } |
| if let AssocItemRender::DerefFor { .. } = what { |
| return; |
| } |
| if !traits.is_empty() { |
| let deref_impl = |
| traits.iter().find(|t| t.inner_impl().trait_.def_id() == c.deref_trait_did); |
| if let Some(impl_) = deref_impl { |
| let has_deref_mut = traits |
| .iter() |
| .find(|t| t.inner_impl().trait_.def_id() == c.deref_mut_trait_did) |
| .is_some(); |
| render_deref_methods(w, cx, impl_, containing_item, has_deref_mut); |
| } |
| |
| let (synthetic, concrete): (Vec<&&Impl>, Vec<&&Impl>) = |
| traits.iter().partition(|t| t.inner_impl().synthetic); |
| let (blanket_impl, concrete): (Vec<&&Impl>, _) = |
| concrete.into_iter().partition(|t| t.inner_impl().blanket_impl.is_some()); |
| |
| let mut impls = Buffer::empty_from(&w); |
| render_impls(cx, &mut impls, &concrete, containing_item); |
| let impls = impls.into_inner(); |
| if !impls.is_empty() { |
| write!( |
| w, |
| "\ |
| <h2 id='implementations' class='small-section-header'>\ |
| Trait Implementations<a href='#implementations' class='anchor'></a>\ |
| </h2>\ |
| <div id='implementations-list'>{}</div>", |
| impls |
| ); |
| } |
| |
| if !synthetic.is_empty() { |
| write!( |
| w, |
| "\ |
| <h2 id='synthetic-implementations' class='small-section-header'>\ |
| Auto Trait Implementations\ |
| <a href='#synthetic-implementations' class='anchor'></a>\ |
| </h2>\ |
| <div id='synthetic-implementations-list'>\ |
| " |
| ); |
| render_impls(cx, w, &synthetic, containing_item); |
| write!(w, "</div>"); |
| } |
| |
| if !blanket_impl.is_empty() { |
| write!( |
| w, |
| "\ |
| <h2 id='blanket-implementations' class='small-section-header'>\ |
| Blanket Implementations\ |
| <a href='#blanket-implementations' class='anchor'></a>\ |
| </h2>\ |
| <div id='blanket-implementations-list'>\ |
| " |
| ); |
| render_impls(cx, w, &blanket_impl, containing_item); |
| write!(w, "</div>"); |
| } |
| } |
| } |
| |
| fn render_deref_methods( |
| w: &mut Buffer, |
| cx: &Context, |
| impl_: &Impl, |
| container_item: &clean::Item, |
| deref_mut: bool, |
| ) { |
| let deref_type = impl_.inner_impl().trait_.as_ref().unwrap(); |
| let target = impl_ |
| .inner_impl() |
| .items |
| .iter() |
| .filter_map(|item| match item.inner { |
| clean::TypedefItem(ref t, true) => Some(&t.type_), |
| _ => None, |
| }) |
| .next() |
| .expect("Expected associated type binding"); |
| let what = |
| AssocItemRender::DerefFor { trait_: deref_type, type_: target, deref_mut_: deref_mut }; |
| if let Some(did) = target.def_id() { |
| render_assoc_items(w, cx, container_item, did, what) |
| } else { |
| if let Some(prim) = target.primitive_type() { |
| if let Some(&did) = cx.cache.primitive_locations.get(&prim) { |
| render_assoc_items(w, cx, container_item, did, what); |
| } |
| } |
| } |
| } |
| |
| fn should_render_item(item: &clean::Item, deref_mut_: bool) -> bool { |
| let self_type_opt = match item.inner { |
| clean::MethodItem(ref method) => method.decl.self_type(), |
| clean::TyMethodItem(ref method) => method.decl.self_type(), |
| _ => None, |
| }; |
| |
| if let Some(self_ty) = self_type_opt { |
| let (by_mut_ref, by_box, by_value) = match self_ty { |
| SelfTy::SelfBorrowed(_, mutability) |
| | SelfTy::SelfExplicit(clean::BorrowedRef { mutability, .. }) => { |
| (mutability == Mutability::Mut, false, false) |
| } |
| SelfTy::SelfExplicit(clean::ResolvedPath { did, .. }) => { |
| (false, Some(did) == cache().owned_box_did, false) |
| } |
| SelfTy::SelfValue => (false, false, true), |
| _ => (false, false, false), |
| }; |
| |
| (deref_mut_ || !by_mut_ref) && !by_box && !by_value |
| } else { |
| false |
| } |
| } |
| |
| fn render_spotlight_traits(item: &clean::Item) -> String { |
| match item.inner { |
| clean::FunctionItem(clean::Function { ref decl, .. }) |
| | clean::TyMethodItem(clean::TyMethod { ref decl, .. }) |
| | clean::MethodItem(clean::Method { ref decl, .. }) |
| | clean::ForeignFunctionItem(clean::Function { ref decl, .. }) => spotlight_decl(decl), |
| _ => String::new(), |
| } |
| } |
| |
| fn spotlight_decl(decl: &clean::FnDecl) -> String { |
| let mut out = Buffer::html(); |
| let mut trait_ = String::new(); |
| |
| if let Some(did) = decl.output.def_id() { |
| let c = cache(); |
| if let Some(impls) = c.impls.get(&did) { |
| for i in impls { |
| let impl_ = i.inner_impl(); |
| if impl_.trait_.def_id().map_or(false, |d| c.traits[&d].is_spotlight) { |
| if out.is_empty() { |
| out.push_str(&format!( |
| "<h3 class=\"important\">Important traits for {}</h3>\ |
| <code class=\"content\">", |
| impl_.for_.print() |
| )); |
| trait_.push_str(&impl_.for_.print().to_string()); |
| } |
| |
| //use the "where" class here to make it small |
| out.push_str(&format!( |
| "<span class=\"where fmt-newline\">{}</span>", |
| impl_.print() |
| )); |
| let t_did = impl_.trait_.def_id().unwrap(); |
| for it in &impl_.items { |
| if let clean::TypedefItem(ref tydef, _) = it.inner { |
| out.push_str("<span class=\"where fmt-newline\"> "); |
| assoc_type( |
| &mut out, |
| it, |
| &[], |
| Some(&tydef.type_), |
| AssocItemLink::GotoSource(t_did, &FxHashSet::default()), |
| "", |
| ); |
| out.push_str(";</span>"); |
| } |
| } |
| } |
| } |
| } |
| } |
| |
| if !out.is_empty() { |
| out.insert_str( |
| 0, |
| &format!( |
| "<div class=\"important-traits\"><div class='tooltip'>ⓘ\ |
| <span class='tooltiptext'>Important traits for {}</span></div>\ |
| <div class=\"content hidden\">", |
| trait_ |
| ), |
| ); |
| out.push_str("</code></div></div>"); |
| } |
| |
| out.into_inner() |
| } |
| |
| fn render_impl( |
| w: &mut Buffer, |
| cx: &Context, |
| i: &Impl, |
| link: AssocItemLink<'_>, |
| render_mode: RenderMode, |
| outer_version: Option<&str>, |
| show_def_docs: bool, |
| use_absolute: Option<bool>, |
| is_on_foreign_type: bool, |
| show_default_items: bool, |
| ) { |
| if render_mode == RenderMode::Normal { |
| let id = cx.derive_id(match i.inner_impl().trait_ { |
| Some(ref t) => { |
| if is_on_foreign_type { |
| get_id_for_impl_on_foreign_type(&i.inner_impl().for_, t) |
| } else { |
| format!("impl-{}", small_url_encode(&format!("{:#}", t.print()))) |
| } |
| } |
| None => "impl".to_string(), |
| }); |
| if let Some(use_absolute) = use_absolute { |
| write!(w, "<h3 id='{}' class='impl'><code class='in-band'>", id); |
| fmt_impl_for_trait_page(&i.inner_impl(), w, use_absolute); |
| if show_def_docs { |
| for it in &i.inner_impl().items { |
| if let clean::TypedefItem(ref tydef, _) = it.inner { |
| write!(w, "<span class=\"where fmt-newline\"> "); |
| assoc_type( |
| w, |
| it, |
| &vec![], |
| Some(&tydef.type_), |
| AssocItemLink::Anchor(None), |
| "", |
| ); |
| write!(w, ";</span>"); |
| } |
| } |
| } |
| write!(w, "</code>"); |
| } else { |
| write!( |
| w, |
| "<h3 id='{}' class='impl'><code class='in-band'>{}</code>", |
| id, |
| i.inner_impl().print() |
| ); |
| } |
| write!(w, "<a href='#{}' class='anchor'></a>", id); |
| let since = i.impl_item.stability.as_ref().map(|s| &s.since[..]); |
| render_stability_since_raw(w, since, outer_version); |
| if let Some(l) = cx.src_href(&i.impl_item) { |
| write!(w, "<a class='srclink' href='{}' title='{}'>[src]</a>", l, "goto source code"); |
| } |
| write!(w, "</h3>"); |
| if let Some(ref dox) = cx.shared.maybe_collapsed_doc_value(&i.impl_item) { |
| let mut ids = cx.id_map.borrow_mut(); |
| write!( |
| w, |
| "<div class='docblock'>{}</div>", |
| Markdown( |
| &*dox, |
| &i.impl_item.links(), |
| &mut ids, |
| cx.shared.codes, |
| cx.shared.edition, |
| &cx.shared.playground |
| ) |
| .to_string() |
| ); |
| } |
| } |
| |
| fn doc_impl_item( |
| w: &mut Buffer, |
| cx: &Context, |
| item: &clean::Item, |
| link: AssocItemLink<'_>, |
| render_mode: RenderMode, |
| is_default_item: bool, |
| outer_version: Option<&str>, |
| trait_: Option<&clean::Trait>, |
| show_def_docs: bool, |
| ) { |
| let item_type = item.type_(); |
| let name = item.name.as_ref().unwrap(); |
| |
| let render_method_item = match render_mode { |
| RenderMode::Normal => true, |
| RenderMode::ForDeref { mut_: deref_mut_ } => should_render_item(&item, deref_mut_), |
| }; |
| |
| let (is_hidden, extra_class) = |
| if (trait_.is_none() || item.doc_value().is_some() || item.inner.is_associated()) |
| && !is_default_item |
| { |
| (false, "") |
| } else { |
| (true, " hidden") |
| }; |
| match item.inner { |
| clean::MethodItem(clean::Method { ref decl, .. }) |
| | clean::TyMethodItem(clean::TyMethod { ref decl, .. }) => { |
| // Only render when the method is not static or we allow static methods |
| if render_method_item { |
| let id = cx.derive_id(format!("{}.{}", item_type, name)); |
| let ns_id = cx.derive_id(format!("{}.{}", name, item_type.name_space())); |
| write!(w, "<h4 id='{}' class=\"{}{}\">", id, item_type, extra_class); |
| write!(w, "{}", spotlight_decl(decl)); |
| write!(w, "<code id='{}'>", ns_id); |
| render_assoc_item(w, item, link.anchor(&id), ItemType::Impl); |
| write!(w, "</code>"); |
| render_stability_since_raw(w, item.stable_since(), outer_version); |
| if let Some(l) = cx.src_href(item) { |
| write!( |
| w, |
| "<a class='srclink' href='{}' title='{}'>[src]</a>", |
| l, "goto source code" |
| ); |
| } |
| write!(w, "</h4>"); |
| } |
| } |
| clean::TypedefItem(ref tydef, _) => { |
| let id = cx.derive_id(format!("{}.{}", ItemType::AssocType, name)); |
| let ns_id = cx.derive_id(format!("{}.{}", name, item_type.name_space())); |
| write!(w, "<h4 id='{}' class=\"{}{}\">", id, item_type, extra_class); |
| write!(w, "<code id='{}'>", ns_id); |
| assoc_type(w, item, &Vec::new(), Some(&tydef.type_), link.anchor(&id), ""); |
| write!(w, "</code></h4>"); |
| } |
| clean::AssocConstItem(ref ty, ref default) => { |
| let id = cx.derive_id(format!("{}.{}", item_type, name)); |
| let ns_id = cx.derive_id(format!("{}.{}", name, item_type.name_space())); |
| write!(w, "<h4 id='{}' class=\"{}{}\">", id, item_type, extra_class); |
| write!(w, "<code id='{}'>", ns_id); |
| assoc_const(w, item, ty, default.as_ref(), link.anchor(&id), ""); |
| write!(w, "</code>"); |
| render_stability_since_raw(w, item.stable_since(), outer_version); |
| if let Some(l) = cx.src_href(item) { |
| write!( |
| w, |
| "<a class='srclink' href='{}' title='{}'>[src]</a>", |
| l, "goto source code" |
| ); |
| } |
| write!(w, "</h4>"); |
| } |
| clean::AssocTypeItem(ref bounds, ref default) => { |
| let id = cx.derive_id(format!("{}.{}", item_type, name)); |
| let ns_id = cx.derive_id(format!("{}.{}", name, item_type.name_space())); |
| write!(w, "<h4 id='{}' class=\"{}{}\">", id, item_type, extra_class); |
| write!(w, "<code id='{}'>", ns_id); |
| assoc_type(w, item, bounds, default.as_ref(), link.anchor(&id), ""); |
| write!(w, "</code></h4>"); |
| } |
| clean::StrippedItem(..) => return, |
| _ => panic!("can't make docs for trait item with name {:?}", item.name), |
| } |
| |
| if render_method_item { |
| if !is_default_item { |
| if let Some(t) = trait_ { |
| // The trait item may have been stripped so we might not |
| // find any documentation or stability for it. |
| if let Some(it) = t.items.iter().find(|i| i.name == item.name) { |
| // We need the stability of the item from the trait |
| // because impls can't have a stability. |
| document_stability(w, cx, it, is_hidden); |
| if item.doc_value().is_some() { |
| document_full(w, item, cx, "", is_hidden); |
| } else if show_def_docs { |
| // In case the item isn't documented, |
| // provide short documentation from the trait. |
| document_short(w, cx, it, link, "", is_hidden); |
| } |
| } |
| } else { |
| document_stability(w, cx, item, is_hidden); |
| if show_def_docs { |
| document_full(w, item, cx, "", is_hidden); |
| } |
| } |
| } else { |
| document_stability(w, cx, item, is_hidden); |
| if show_def_docs { |
| document_short(w, cx, item, link, "", is_hidden); |
| } |
| } |
| } |
| } |
| |
| let traits = &cx.cache.traits; |
| let trait_ = i.trait_did().map(|did| &traits[&did]); |
| |
| write!(w, "<div class='impl-items'>"); |
| for trait_item in &i.inner_impl().items { |
| doc_impl_item( |
| w, |
| cx, |
| trait_item, |
| link, |
| render_mode, |
| false, |
| outer_version, |
| trait_, |
| show_def_docs, |
| ); |
| } |
| |
| fn render_default_items( |
| w: &mut Buffer, |
| cx: &Context, |
| t: &clean::Trait, |
| i: &clean::Impl, |
| render_mode: RenderMode, |
| outer_version: Option<&str>, |
| show_def_docs: bool, |
| ) { |
| for trait_item in &t.items { |
| let n = trait_item.name.clone(); |
| if i.items.iter().find(|m| m.name == n).is_some() { |
| continue; |
| } |
| let did = i.trait_.as_ref().unwrap().def_id().unwrap(); |
| let assoc_link = AssocItemLink::GotoSource(did, &i.provided_trait_methods); |
| |
| doc_impl_item( |
| w, |
| cx, |
| trait_item, |
| assoc_link, |
| render_mode, |
| true, |
| outer_version, |
| None, |
| show_def_docs, |
| ); |
| } |
| } |
| |
| // If we've implemented a trait, then also emit documentation for all |
| // default items which weren't overridden in the implementation block. |
| // We don't emit documentation for default items if they appear in the |
| // Implementations on Foreign Types or Implementors sections. |
| if show_default_items { |
| if let Some(t) = trait_ { |
| render_default_items( |
| w, |
| cx, |
| t, |
| &i.inner_impl(), |
| render_mode, |
| outer_version, |
| show_def_docs, |
| ); |
| } |
| } |
| write!(w, "</div>"); |
| } |
| |
| fn item_opaque_ty(w: &mut Buffer, cx: &Context, it: &clean::Item, t: &clean::OpaqueTy) { |
| write!(w, "<pre class='rust opaque'>"); |
| render_attributes(w, it, false); |
| write!( |
| w, |
| "type {}{}{where_clause} = impl {bounds};</pre>", |
| it.name.as_ref().unwrap(), |
| t.generics.print(), |
| where_clause = WhereClause { gens: &t.generics, indent: 0, end_newline: true }, |
| bounds = bounds(&t.bounds, false) |
| ); |
| |
| document(w, cx, it); |
| |
| // Render any items associated directly to this alias, as otherwise they |
| // won't be visible anywhere in the docs. It would be nice to also show |
| // associated items from the aliased type (see discussion in #32077), but |
| // we need #14072 to make sense of the generics. |
| render_assoc_items(w, cx, it, it.def_id, AssocItemRender::All) |
| } |
| |
| fn item_trait_alias(w: &mut Buffer, cx: &Context, it: &clean::Item, t: &clean::TraitAlias) { |
| write!(w, "<pre class='rust trait-alias'>"); |
| render_attributes(w, it, false); |
| write!( |
| w, |
| "trait {}{}{} = {};</pre>", |
| it.name.as_ref().unwrap(), |
| t.generics.print(), |
| WhereClause { gens: &t.generics, indent: 0, end_newline: true }, |
| bounds(&t.bounds, true) |
| ); |
| |
| document(w, cx, it); |
| |
| // Render any items associated directly to this alias, as otherwise they |
| // won't be visible anywhere in the docs. It would be nice to also show |
| // associated items from the aliased type (see discussion in #32077), but |
| // we need #14072 to make sense of the generics. |
| render_assoc_items(w, cx, it, it.def_id, AssocItemRender::All) |
| } |
| |
| fn item_typedef(w: &mut Buffer, cx: &Context, it: &clean::Item, t: &clean::Typedef) { |
| write!(w, "<pre class='rust typedef'>"); |
| render_attributes(w, it, false); |
| write!( |
| w, |
| "type {}{}{where_clause} = {type_};</pre>", |
| it.name.as_ref().unwrap(), |
| t.generics.print(), |
| where_clause = WhereClause { gens: &t.generics, indent: 0, end_newline: true }, |
| type_ = t.type_.print() |
| ); |
| |
| document(w, cx, it); |
| |
| // Render any items associated directly to this alias, as otherwise they |
| // won't be visible anywhere in the docs. It would be nice to also show |
| // associated items from the aliased type (see discussion in #32077), but |
| // we need #14072 to make sense of the generics. |
| render_assoc_items(w, cx, it, it.def_id, AssocItemRender::All) |
| } |
| |
| fn item_foreign_type(w: &mut Buffer, cx: &Context, it: &clean::Item) { |
| writeln!(w, "<pre class='rust foreigntype'>extern {{"); |
| render_attributes(w, it, false); |
| write!( |
| w, |
| " {}type {};\n}}</pre>", |
| it.visibility.print_with_space(), |
| it.name.as_ref().unwrap(), |
| ); |
| |
| document(w, cx, it); |
| |
| render_assoc_items(w, cx, it, it.def_id, AssocItemRender::All) |
| } |
| |
| fn print_sidebar(cx: &Context, it: &clean::Item, buffer: &mut Buffer) { |
| let parentlen = cx.current.len() - if it.is_mod() { 1 } else { 0 }; |
| |
| if it.is_struct() |
| || it.is_trait() |
| || it.is_primitive() |
| || it.is_union() |
| || it.is_enum() |
| || it.is_mod() |
| || it.is_typedef() |
| { |
| write!( |
| buffer, |
| "<p class='location'>{}{}</p>", |
| match it.inner { |
| clean::StructItem(..) => "Struct ", |
| clean::TraitItem(..) => "Trait ", |
| clean::PrimitiveItem(..) => "Primitive Type ", |
| clean::UnionItem(..) => "Union ", |
| clean::EnumItem(..) => "Enum ", |
| clean::TypedefItem(..) => "Type Definition ", |
| clean::ForeignTypeItem => "Foreign Type ", |
| clean::ModuleItem(..) => |
| if it.is_crate() { |
| "Crate " |
| } else { |
| "Module " |
| }, |
| _ => "", |
| }, |
| it.name.as_ref().unwrap() |
| ); |
| } |
| |
| if it.is_crate() { |
| if let Some(ref version) = cx.cache.crate_version { |
| write!( |
| buffer, |
| "<div class='block version'>\ |
| <p>Version {}</p>\ |
| </div>", |
| version |
| ); |
| } |
| } |
| |
| write!(buffer, "<div class=\"sidebar-elems\">"); |
| if it.is_crate() { |
| write!( |
| buffer, |
| "<a id='all-types' href='all.html'><p>See all {}'s items</p></a>", |
| it.name.as_ref().expect("crates always have a name") |
| ); |
| } |
| match it.inner { |
| clean::StructItem(ref s) => sidebar_struct(buffer, it, s), |
| clean::TraitItem(ref t) => sidebar_trait(buffer, it, t), |
| clean::PrimitiveItem(_) => sidebar_primitive(buffer, it), |
| clean::UnionItem(ref u) => sidebar_union(buffer, it, u), |
| clean::EnumItem(ref e) => sidebar_enum(buffer, it, e), |
| clean::TypedefItem(_, _) => sidebar_typedef(buffer, it), |
| clean::ModuleItem(ref m) => sidebar_module(buffer, &m.items), |
| clean::ForeignTypeItem => sidebar_foreign_type(buffer, it), |
| _ => (), |
| } |
| |
| // The sidebar is designed to display sibling functions, modules and |
| // other miscellaneous information. since there are lots of sibling |
| // items (and that causes quadratic growth in large modules), |
| // we refactor common parts into a shared JavaScript file per module. |
| // still, we don't move everything into JS because we want to preserve |
| // as much HTML as possible in order to allow non-JS-enabled browsers |
| // to navigate the documentation (though slightly inefficiently). |
| |
| write!(buffer, "<p class='location'>"); |
| for (i, name) in cx.current.iter().take(parentlen).enumerate() { |
| if i > 0 { |
| write!(buffer, "::<wbr>"); |
| } |
| write!( |
| buffer, |
| "<a href='{}index.html'>{}</a>", |
| &cx.root_path()[..(cx.current.len() - i - 1) * 3], |
| *name |
| ); |
| } |
| write!(buffer, "</p>"); |
| |
| // Sidebar refers to the enclosing module, not this module. |
| let relpath = if it.is_mod() { "../" } else { "" }; |
| write!( |
| buffer, |
| "<script>window.sidebarCurrent = {{\ |
| name: '{name}', \ |
| ty: '{ty}', \ |
| relpath: '{path}'\ |
| }};</script>", |
| name = it.name.as_ref().map(|x| &x[..]).unwrap_or(""), |
| ty = it.type_(), |
| path = relpath |
| ); |
| if parentlen == 0 { |
| // There is no sidebar-items.js beyond the crate root path |
| // FIXME maybe dynamic crate loading can be merged here |
| } else { |
| write!(buffer, "<script defer src=\"{path}sidebar-items.js\"></script>", path = relpath); |
| } |
| // Closes sidebar-elems div. |
| write!(buffer, "</div>"); |
| } |
| |
| fn get_next_url(used_links: &mut FxHashSet<String>, url: String) -> String { |
| if used_links.insert(url.clone()) { |
| return url; |
| } |
| let mut add = 1; |
| while used_links.insert(format!("{}-{}", url, add)) == false { |
| add += 1; |
| } |
| format!("{}-{}", url, add) |
| } |
| |
| fn get_methods( |
| i: &clean::Impl, |
| for_deref: bool, |
| used_links: &mut FxHashSet<String>, |
| deref_mut: bool, |
| ) -> Vec<String> { |
| i.items |
| .iter() |
| .filter_map(|item| match item.name { |
| Some(ref name) if !name.is_empty() && item.is_method() => { |
| if !for_deref || should_render_item(item, deref_mut) { |
| Some(format!( |
| "<a href=\"#{}\">{}</a>", |
| get_next_url(used_links, format!("method.{}", name)), |
| name |
| )) |
| } else { |
| None |
| } |
| } |
| _ => None, |
| }) |
| .collect::<Vec<_>>() |
| } |
| |
| // The point is to url encode any potential character from a type with genericity. |
| fn small_url_encode(s: &str) -> String { |
| s.replace("<", "%3C") |
| .replace(">", "%3E") |
| .replace(" ", "%20") |
| .replace("?", "%3F") |
| .replace("'", "%27") |
| .replace("&", "%26") |
| .replace(",", "%2C") |
| .replace(":", "%3A") |
| .replace(";", "%3B") |
| .replace("[", "%5B") |
| .replace("]", "%5D") |
| .replace("\"", "%22") |
| } |
| |
| fn sidebar_assoc_items(it: &clean::Item) -> String { |
| let mut out = String::new(); |
| let c = cache(); |
| if let Some(v) = c.impls.get(&it.def_id) { |
| let mut used_links = FxHashSet::default(); |
| |
| { |
| let used_links_bor = &mut used_links; |
| let mut ret = v |
| .iter() |
| .filter(|i| i.inner_impl().trait_.is_none()) |
| .flat_map(move |i| get_methods(i.inner_impl(), false, used_links_bor, false)) |
| .collect::<Vec<_>>(); |
| // We want links' order to be reproducible so we don't use unstable sort. |
| ret.sort(); |
| if !ret.is_empty() { |
| out.push_str(&format!( |
| "<a class=\"sidebar-title\" href=\"#methods\">Methods\ |
| </a><div class=\"sidebar-links\">{}</div>", |
| ret.join("") |
| )); |
| } |
| } |
| |
| if v.iter().any(|i| i.inner_impl().trait_.is_some()) { |
| if let Some(impl_) = v |
| .iter() |
| .filter(|i| i.inner_impl().trait_.is_some()) |
| .find(|i| i.inner_impl().trait_.def_id() == c.deref_trait_did) |
| { |
| if let Some(target) = impl_ |
| .inner_impl() |
| .items |
| .iter() |
| .filter_map(|item| match item.inner { |
| clean::TypedefItem(ref t, true) => Some(&t.type_), |
| _ => None, |
| }) |
| .next() |
| { |
| let inner_impl = target |
| .def_id() |
| .or(target |
| .primitive_type() |
| .and_then(|prim| c.primitive_locations.get(&prim).cloned())) |
| .and_then(|did| c.impls.get(&did)); |
| if let Some(impls) = inner_impl { |
| out.push_str("<a class=\"sidebar-title\" href=\"#deref-methods\">"); |
| out.push_str(&format!( |
| "Methods from {}<Target={}>", |
| Escape(&format!( |
| "{:#}", |
| impl_.inner_impl().trait_.as_ref().unwrap().print() |
| )), |
| Escape(&format!("{:#}", target.print())) |
| )); |
| out.push_str("</a>"); |
| let mut ret = impls |
| .iter() |
| .filter(|i| i.inner_impl().trait_.is_none()) |
| .flat_map(|i| get_methods(i.inner_impl(), true, &mut used_links, true)) |
| .collect::<Vec<_>>(); |
| // We want links' order to be reproducible so we don't use unstable sort. |
| ret.sort(); |
| if !ret.is_empty() { |
| out.push_str(&format!( |
| "<div class=\"sidebar-links\">{}</div>", |
| ret.join("") |
| )); |
| } |
| } |
| } |
| } |
| let format_impls = |impls: Vec<&Impl>| { |
| let mut links = FxHashSet::default(); |
| |
| let mut ret = impls |
| .iter() |
| .filter_map(|i| { |
| let is_negative_impl = is_negative_impl(i.inner_impl()); |
| if let Some(ref i) = i.inner_impl().trait_ { |
| let i_display = format!("{:#}", i.print()); |
| let out = Escape(&i_display); |
| let encoded = small_url_encode(&format!("{:#}", i.print())); |
| let generated = format!( |
| "<a href=\"#impl-{}\">{}{}</a>", |
| encoded, |
| if is_negative_impl { "!" } else { "" }, |
| out |
| ); |
| if links.insert(generated.clone()) { Some(generated) } else { None } |
| } else { |
| None |
| } |
| }) |
| .collect::<Vec<String>>(); |
| ret.sort(); |
| ret.join("") |
| }; |
| |
| let (synthetic, concrete): (Vec<&Impl>, Vec<&Impl>) = |
| v.iter().partition::<Vec<_>, _>(|i| i.inner_impl().synthetic); |
| let (blanket_impl, concrete): (Vec<&Impl>, Vec<&Impl>) = concrete |
| .into_iter() |
| .partition::<Vec<_>, _>(|i| i.inner_impl().blanket_impl.is_some()); |
| |
| let concrete_format = format_impls(concrete); |
| let synthetic_format = format_impls(synthetic); |
| let blanket_format = format_impls(blanket_impl); |
| |
| if !concrete_format.is_empty() { |
| out.push_str( |
| "<a class=\"sidebar-title\" href=\"#implementations\">\ |
| Trait Implementations</a>", |
| ); |
| out.push_str(&format!("<div class=\"sidebar-links\">{}</div>", concrete_format)); |
| } |
| |
| if !synthetic_format.is_empty() { |
| out.push_str( |
| "<a class=\"sidebar-title\" href=\"#synthetic-implementations\">\ |
| Auto Trait Implementations</a>", |
| ); |
| out.push_str(&format!("<div class=\"sidebar-links\">{}</div>", synthetic_format)); |
| } |
| |
| if !blanket_format.is_empty() { |
| out.push_str( |
| "<a class=\"sidebar-title\" href=\"#blanket-implementations\">\ |
| Blanket Implementations</a>", |
| ); |
| out.push_str(&format!("<div class=\"sidebar-links\">{}</div>", blanket_format)); |
| } |
| } |
| } |
| |
| out |
| } |
| |
| fn sidebar_struct(buf: &mut Buffer, it: &clean::Item, s: &clean::Struct) { |
| let mut sidebar = String::new(); |
| let fields = get_struct_fields_name(&s.fields); |
| |
| if !fields.is_empty() { |
| if let doctree::Plain = s.struct_type { |
| sidebar.push_str(&format!( |
| "<a class=\"sidebar-title\" href=\"#fields\">Fields</a>\ |
| <div class=\"sidebar-links\">{}</div>", |
| fields |
| )); |
| } |
| } |
| |
| sidebar.push_str(&sidebar_assoc_items(it)); |
| |
| if !sidebar.is_empty() { |
| write!(buf, "<div class=\"block items\">{}</div>", sidebar); |
| } |
| } |
| |
| fn get_id_for_impl_on_foreign_type(for_: &clean::Type, trait_: &clean::Type) -> String { |
| small_url_encode(&format!("impl-{:#}-for-{:#}", trait_.print(), for_.print())) |
| } |
| |
| fn extract_for_impl_name(item: &clean::Item) -> Option<(String, String)> { |
| match item.inner { |
| clean::ItemEnum::ImplItem(ref i) => { |
| if let Some(ref trait_) = i.trait_ { |
| Some(( |
| format!("{:#}", i.for_.print()), |
| get_id_for_impl_on_foreign_type(&i.for_, trait_), |
| )) |
| } else { |
| None |
| } |
| } |
| _ => None, |
| } |
| } |
| |
| fn is_negative_impl(i: &clean::Impl) -> bool { |
| i.polarity == Some(clean::ImplPolarity::Negative) |
| } |
| |
| fn sidebar_trait(buf: &mut Buffer, it: &clean::Item, t: &clean::Trait) { |
| let mut sidebar = String::new(); |
| |
| let types = t |
| .items |
| .iter() |
| .filter_map(|m| match m.name { |
| Some(ref name) if m.is_associated_type() => { |
| Some(format!("<a href=\"#associatedtype.{name}\">{name}</a>", name = name)) |
| } |
| _ => None, |
| }) |
| .collect::<String>(); |
| let consts = t |
| .items |
| .iter() |
| .filter_map(|m| match m.name { |
| Some(ref name) if m.is_associated_const() => { |
| Some(format!("<a href=\"#associatedconstant.{name}\">{name}</a>", name = name)) |
| } |
| _ => None, |
| }) |
| .collect::<String>(); |
| let mut required = t |
| .items |
| .iter() |
| .filter_map(|m| match m.name { |
| Some(ref name) if m.is_ty_method() => { |
| Some(format!("<a href=\"#tymethod.{name}\">{name}</a>", name = name)) |
| } |
| _ => None, |
| }) |
| .collect::<Vec<String>>(); |
| let mut provided = t |
| .items |
| .iter() |
| .filter_map(|m| match m.name { |
| Some(ref name) if m.is_method() => { |
| Some(format!("<a href=\"#method.{0}\">{0}</a>", name)) |
| } |
| _ => None, |
| }) |
| .collect::<Vec<String>>(); |
| |
| if !types.is_empty() { |
| sidebar.push_str(&format!( |
| "<a class=\"sidebar-title\" href=\"#associated-types\">\ |
| Associated Types</a><div class=\"sidebar-links\">{}</div>", |
| types |
| )); |
| } |
| if !consts.is_empty() { |
| sidebar.push_str(&format!( |
| "<a class=\"sidebar-title\" href=\"#associated-const\">\ |
| Associated Constants</a><div class=\"sidebar-links\">{}</div>", |
| consts |
| )); |
| } |
| if !required.is_empty() { |
| required.sort(); |
| sidebar.push_str(&format!( |
| "<a class=\"sidebar-title\" href=\"#required-methods\">\ |
| Required Methods</a><div class=\"sidebar-links\">{}</div>", |
| required.join("") |
| )); |
| } |
| if !provided.is_empty() { |
| provided.sort(); |
| sidebar.push_str(&format!( |
| "<a class=\"sidebar-title\" href=\"#provided-methods\">\ |
| Provided Methods</a><div class=\"sidebar-links\">{}</div>", |
| provided.join("") |
| )); |
| } |
| |
| let c = cache(); |
| |
| if let Some(implementors) = c.implementors.get(&it.def_id) { |
| let mut res = implementors |
| .iter() |
| .filter(|i| i.inner_impl().for_.def_id().map_or(false, |d| !c.paths.contains_key(&d))) |
| .filter_map(|i| match extract_for_impl_name(&i.impl_item) { |
| Some((ref name, ref id)) => { |
| Some(format!("<a href=\"#{}\">{}</a>", id, Escape(name))) |
| } |
| _ => None, |
| }) |
| .collect::<Vec<String>>(); |
| if !res.is_empty() { |
| res.sort(); |
| sidebar.push_str(&format!( |
| "<a class=\"sidebar-title\" href=\"#foreign-impls\">\ |
| Implementations on Foreign Types</a><div \ |
| class=\"sidebar-links\">{}</div>", |
| res.join("") |
| )); |
| } |
| } |
| |
| sidebar.push_str("<a class=\"sidebar-title\" href=\"#implementors\">Implementors</a>"); |
| if t.auto { |
| sidebar.push_str( |
| "<a class=\"sidebar-title\" \ |
| href=\"#synthetic-implementors\">Auto Implementors</a>", |
| ); |
| } |
| |
| sidebar.push_str(&sidebar_assoc_items(it)); |
| |
| write!(buf, "<div class=\"block items\">{}</div>", sidebar) |
| } |
| |
| fn sidebar_primitive(buf: &mut Buffer, it: &clean::Item) { |
| let sidebar = sidebar_assoc_items(it); |
| |
| if !sidebar.is_empty() { |
| write!(buf, "<div class=\"block items\">{}</div>", sidebar); |
| } |
| } |
| |
| fn sidebar_typedef(buf: &mut Buffer, it: &clean::Item) { |
| let sidebar = sidebar_assoc_items(it); |
| |
| if !sidebar.is_empty() { |
| write!(buf, "<div class=\"block items\">{}</div>", sidebar); |
| } |
| } |
| |
| fn get_struct_fields_name(fields: &[clean::Item]) -> String { |
| fields |
| .iter() |
| .filter(|f| if let clean::StructFieldItem(..) = f.inner { true } else { false }) |
| .filter_map(|f| match f.name { |
| Some(ref name) => Some(format!( |
| "<a href=\"#structfield.{name}\">\ |
| {name}</a>", |
| name = name |
| )), |
| _ => None, |
| }) |
| .collect() |
| } |
| |
| fn sidebar_union(buf: &mut Buffer, it: &clean::Item, u: &clean::Union) { |
| let mut sidebar = String::new(); |
| let fields = get_struct_fields_name(&u.fields); |
| |
| if !fields.is_empty() { |
| sidebar.push_str(&format!( |
| "<a class=\"sidebar-title\" href=\"#fields\">Fields</a>\ |
| <div class=\"sidebar-links\">{}</div>", |
| fields |
| )); |
| } |
| |
| sidebar.push_str(&sidebar_assoc_items(it)); |
| |
| if !sidebar.is_empty() { |
| write!(buf, "<div class=\"block items\">{}</div>", sidebar); |
| } |
| } |
| |
| fn sidebar_enum(buf: &mut Buffer, it: &clean::Item, e: &clean::Enum) { |
| let mut sidebar = String::new(); |
| |
| let variants = e |
| .variants |
| .iter() |
| .filter_map(|v| match v.name { |
| Some(ref name) => Some(format!( |
| "<a href=\"#variant.{name}\">{name}\ |
| </a>", |
| name = name |
| )), |
| _ => None, |
| }) |
| .collect::<String>(); |
| if !variants.is_empty() { |
| sidebar.push_str(&format!( |
| "<a class=\"sidebar-title\" href=\"#variants\">Variants</a>\ |
| <div class=\"sidebar-links\">{}</div>", |
| variants |
| )); |
| } |
| |
| sidebar.push_str(&sidebar_assoc_items(it)); |
| |
| if !sidebar.is_empty() { |
| write!(buf, "<div class=\"block items\">{}</div>", sidebar); |
| } |
| } |
| |
| fn item_ty_to_strs(ty: &ItemType) -> (&'static str, &'static str) { |
| match *ty { |
| ItemType::ExternCrate | ItemType::Import => ("reexports", "Re-exports"), |
| ItemType::Module => ("modules", "Modules"), |
| ItemType::Struct => ("structs", "Structs"), |
| ItemType::Union => ("unions", "Unions"), |
| ItemType::Enum => ("enums", "Enums"), |
| ItemType::Function => ("functions", "Functions"), |
| ItemType::Typedef => ("types", "Type Definitions"), |
| ItemType::Static => ("statics", "Statics"), |
| ItemType::Constant => ("constants", "Constants"), |
| ItemType::Trait => ("traits", "Traits"), |
| ItemType::Impl => ("impls", "Implementations"), |
| ItemType::TyMethod => ("tymethods", "Type Methods"), |
| ItemType::Method => ("methods", "Methods"), |
| ItemType::StructField => ("fields", "Struct Fields"), |
| ItemType::Variant => ("variants", "Variants"), |
| ItemType::Macro => ("macros", "Macros"), |
| ItemType::Primitive => ("primitives", "Primitive Types"), |
| ItemType::AssocType => ("associated-types", "Associated Types"), |
| ItemType::AssocConst => ("associated-consts", "Associated Constants"), |
| ItemType::ForeignType => ("foreign-types", "Foreign Types"), |
| ItemType::Keyword => ("keywords", "Keywords"), |
| ItemType::OpaqueTy => ("opaque-types", "Opaque Types"), |
| ItemType::ProcAttribute => ("attributes", "Attribute Macros"), |
| ItemType::ProcDerive => ("derives", "Derive Macros"), |
| ItemType::TraitAlias => ("trait-aliases", "Trait aliases"), |
| } |
| } |
| |
| fn sidebar_module(buf: &mut Buffer, items: &[clean::Item]) { |
| let mut sidebar = String::new(); |
| |
| if items.iter().any(|it| it.type_() == ItemType::ExternCrate || it.type_() == ItemType::Import) |
| { |
| sidebar.push_str(&format!( |
| "<li><a href=\"#{id}\">{name}</a></li>", |
| id = "reexports", |
| name = "Re-exports" |
| )); |
| } |
| |
| // ordering taken from item_module, reorder, where it prioritized elements in a certain order |
| // to print its headings |
| for &myty in &[ |
| ItemType::Primitive, |
| ItemType::Module, |
| ItemType::Macro, |
| ItemType::Struct, |
| ItemType::Enum, |
| ItemType::Constant, |
| ItemType::Static, |
| ItemType::Trait, |
| ItemType::Function, |
| ItemType::Typedef, |
| ItemType::Union, |
| ItemType::Impl, |
| ItemType::TyMethod, |
| ItemType::Method, |
| ItemType::StructField, |
| ItemType::Variant, |
| ItemType::AssocType, |
| ItemType::AssocConst, |
| ItemType::ForeignType, |
| ItemType::Keyword, |
| ] { |
| if items.iter().any(|it| !it.is_stripped() && it.type_() == myty) { |
| let (short, name) = item_ty_to_strs(&myty); |
| sidebar.push_str(&format!( |
| "<li><a href=\"#{id}\">{name}</a></li>", |
| id = short, |
| name = name |
| )); |
| } |
| } |
| |
| if !sidebar.is_empty() { |
| write!(buf, "<div class=\"block items\"><ul>{}</ul></div>", sidebar); |
| } |
| } |
| |
| fn sidebar_foreign_type(buf: &mut Buffer, it: &clean::Item) { |
| let sidebar = sidebar_assoc_items(it); |
| if !sidebar.is_empty() { |
| write!(buf, "<div class=\"block items\">{}</div>", sidebar); |
| } |
| } |
| |
| fn item_macro(w: &mut Buffer, cx: &Context, it: &clean::Item, t: &clean::Macro) { |
| wrap_into_docblock(w, |w| { |
| w.write_str(&highlight::render_with_highlighting(&t.source, Some("macro"), None, None)) |
| }); |
| document(w, cx, it) |
| } |
| |
| fn item_proc_macro(w: &mut Buffer, cx: &Context, it: &clean::Item, m: &clean::ProcMacro) { |
| let name = it.name.as_ref().expect("proc-macros always have names"); |
| match m.kind { |
| MacroKind::Bang => { |
| write!(w, "<pre class='rust macro'>"); |
| write!(w, "{}!() {{ /* proc-macro */ }}", name); |
| write!(w, "</pre>"); |
| } |
| MacroKind::Attr => { |
| write!(w, "<pre class='rust attr'>"); |
| write!(w, "#[{}]", name); |
| write!(w, "</pre>"); |
| } |
| MacroKind::Derive => { |
| write!(w, "<pre class='rust derive'>"); |
| write!(w, "#[derive({})]", name); |
| if !m.helpers.is_empty() { |
| writeln!(w, "\n{{"); |
| writeln!(w, " // Attributes available to this derive:"); |
| for attr in &m.helpers { |
| writeln!(w, " #[{}]", attr); |
| } |
| write!(w, "}}"); |
| } |
| write!(w, "</pre>"); |
| } |
| } |
| document(w, cx, it) |
| } |
| |
| fn item_primitive(w: &mut Buffer, cx: &Context, it: &clean::Item) { |
| document(w, cx, it); |
| render_assoc_items(w, cx, it, it.def_id, AssocItemRender::All) |
| } |
| |
| fn item_keyword(w: &mut Buffer, cx: &Context, it: &clean::Item) { |
| document(w, cx, it) |
| } |
| |
| crate const BASIC_KEYWORDS: &'static str = "rust, rustlang, rust-lang"; |
| |
| fn make_item_keywords(it: &clean::Item) -> String { |
| format!("{}, {}", BASIC_KEYWORDS, it.name.as_ref().unwrap()) |
| } |
| |
| /// Returns a list of all paths used in the type. |
| /// This is used to help deduplicate imported impls |
| /// for reexported types. If any of the contained |
| /// types are re-exported, we don't use the corresponding |
| /// entry from the js file, as inlining will have already |
| /// picked up the impl |
| fn collect_paths_for_type(first_ty: clean::Type) -> Vec<String> { |
| let mut out = Vec::new(); |
| let mut visited = FxHashSet::default(); |
| let mut work = VecDeque::new(); |
| let cache = cache(); |
| |
| work.push_back(first_ty); |
| |
| while let Some(ty) = work.pop_front() { |
| if !visited.insert(ty.clone()) { |
| continue; |
| } |
| |
| match ty { |
| clean::Type::ResolvedPath { did, .. } => { |
| let get_extern = || cache.external_paths.get(&did).map(|s| s.0.clone()); |
| let fqp = cache.exact_paths.get(&did).cloned().or_else(get_extern); |
| |
| match fqp { |
| Some(path) => { |
| out.push(path.join("::")); |
| } |
| _ => {} |
| }; |
| } |
| clean::Type::Tuple(tys) => { |
| work.extend(tys.into_iter()); |
| } |
| clean::Type::Slice(ty) => { |
| work.push_back(*ty); |
| } |
| clean::Type::Array(ty, _) => { |
| work.push_back(*ty); |
| } |
| clean::Type::RawPointer(_, ty) => { |
| work.push_back(*ty); |
| } |
| clean::Type::BorrowedRef { type_, .. } => { |
| work.push_back(*type_); |
| } |
| clean::Type::QPath { self_type, trait_, .. } => { |
| work.push_back(*self_type); |
| work.push_back(*trait_); |
| } |
| _ => {} |
| } |
| } |
| out |
| } |
| |
| crate fn cache() -> Arc<Cache> { |
| CACHE_KEY.with(|c| c.borrow().clone()) |
| } |