//! Markdown formatting for rustdoc. //! //! This module implements markdown formatting through the pulldown-cmark library. //! //! ``` //! #![feature(rustc_private)] //! //! extern crate rustc_span; //! //! use rustc_span::edition::Edition; //! use rustdoc::html::markdown::{HeadingOffset, IdMap, Markdown, ErrorCodes}; //! //! let s = "My *markdown* _text_"; //! let mut id_map = IdMap::new(); //! let md = Markdown { //! content: s, //! links: &[], //! ids: &mut id_map, //! error_codes: ErrorCodes::Yes, //! edition: Edition::Edition2015, //! playground: &None, //! heading_offset: HeadingOffset::H2, //! }; //! let mut html = String::new(); //! md.write_into(&mut html).unwrap(); //! // ... something using html //! ``` use std::borrow::Cow; use std::collections::VecDeque; use std::fmt::{self, Write}; use std::iter::Peekable; use std::ops::{ControlFlow, Range}; use std::path::PathBuf; use std::str::{self, CharIndices}; use std::sync::atomic::AtomicUsize; use std::sync::{Arc, Weak}; use pulldown_cmark::{ BrokenLink, CodeBlockKind, CowStr, Event, LinkType, Options, Parser, Tag, TagEnd, html, }; use rustc_data_structures::fx::{FxHashMap, FxIndexMap}; use rustc_errors::{Diag, DiagMessage}; use rustc_hir::def_id::LocalDefId; use rustc_middle::ty::TyCtxt; pub(crate) use rustc_resolve::rustdoc::main_body_opts; use rustc_resolve::rustdoc::may_be_doc_link; use rustc_span::edition::Edition; use rustc_span::{Span, Symbol}; use tracing::{debug, trace}; use crate::clean::RenderedLink; use crate::doctest; use crate::doctest::GlobalTestOptions; use crate::html::escape::{Escape, EscapeBodyText}; use crate::html::highlight; use crate::html::length_limit::HtmlWithLimit; use crate::html::render::small_url_encode; use crate::html::toc::{Toc, TocBuilder}; mod footnotes; #[cfg(test)] mod tests; const MAX_HEADER_LEVEL: u32 = 6; /// Options for rendering Markdown in summaries (e.g., in search results). pub(crate) fn summary_opts() -> Options { Options::ENABLE_TABLES | Options::ENABLE_FOOTNOTES | Options::ENABLE_STRIKETHROUGH | Options::ENABLE_TASKLISTS | Options::ENABLE_SMART_PUNCTUATION } #[derive(Debug, Clone, Copy)] pub enum HeadingOffset { H1 = 0, H2, H3, H4, H5, H6, } /// When `to_string` is called, this struct will emit the HTML corresponding to /// the rendered version of the contained markdown string. pub struct Markdown<'a> { pub content: &'a str, /// A list of link replacements. pub links: &'a [RenderedLink], /// The current list of used header IDs. pub ids: &'a mut IdMap, /// Whether to allow the use of explicit error codes in doctest lang strings. pub error_codes: ErrorCodes, /// Default edition to use when parsing doctests (to add a `fn main`). pub edition: Edition, pub playground: &'a Option, /// Offset at which we render headings. /// E.g. if `heading_offset: HeadingOffset::H2`, then `# something` renders an `

`. pub heading_offset: HeadingOffset, } /// A struct like `Markdown` that renders the markdown with a table of contents. pub(crate) struct MarkdownWithToc<'a> { pub(crate) content: &'a str, pub(crate) links: &'a [RenderedLink], pub(crate) ids: &'a mut IdMap, pub(crate) error_codes: ErrorCodes, pub(crate) edition: Edition, pub(crate) playground: &'a Option, } /// A tuple struct like `Markdown` that renders the markdown escaping HTML tags /// and includes no paragraph tags. pub(crate) struct MarkdownItemInfo<'a>(pub(crate) &'a str, pub(crate) &'a mut IdMap); /// A tuple struct like `Markdown` that renders only the first paragraph. pub(crate) struct MarkdownSummaryLine<'a>(pub &'a str, pub &'a [RenderedLink]); #[derive(Copy, Clone, PartialEq, Debug)] pub enum ErrorCodes { Yes, No, } impl ErrorCodes { pub(crate) fn from(b: bool) -> Self { match b { true => ErrorCodes::Yes, false => ErrorCodes::No, } } pub(crate) fn as_bool(self) -> bool { match self { ErrorCodes::Yes => true, ErrorCodes::No => false, } } } /// Controls whether a line will be hidden or shown in HTML output. /// /// All lines are used in documentation tests. pub(crate) enum Line<'a> { Hidden(&'a str), Shown(Cow<'a, str>), } impl<'a> Line<'a> { fn for_html(self) -> Option> { match self { Line::Shown(l) => Some(l), Line::Hidden(_) => None, } } pub(crate) fn for_code(self) -> Cow<'a, str> { match self { Line::Shown(l) => l, Line::Hidden(l) => Cow::Borrowed(l), } } } /// This function is used to handle the "hidden lines" (ie starting with `#`) in /// doctests. It also transforms `##` back into `#`. // FIXME: There is a minor inconsistency here. For lines that start with ##, we // have no easy way of removing a potential single space after the hashes, which // is done in the single # case. This inconsistency seems okay, if non-ideal. In // order to fix it we'd have to iterate to find the first non-# character, and // then reallocate to remove it; which would make us return a String. pub(crate) fn map_line(s: &str) -> Line<'_> { let trimmed = s.trim(); if trimmed.starts_with("##") { Line::Shown(Cow::Owned(s.replacen("##", "#", 1))) } else if let Some(stripped) = trimmed.strip_prefix("# ") { // # text Line::Hidden(stripped) } else if trimmed == "#" { // We cannot handle '#text' because it could be #[attr]. Line::Hidden("") } else { Line::Shown(Cow::Borrowed(s)) } } /// Convert chars from a title for an id. /// /// "Hello, world!" -> "hello-world" fn slugify(c: char) -> Option { if c.is_alphanumeric() || c == '-' || c == '_' { if c.is_ascii() { Some(c.to_ascii_lowercase()) } else { Some(c) } } else if c.is_whitespace() && c.is_ascii() { Some('-') } else { None } } #[derive(Debug)] pub struct Playground { pub crate_name: Option, pub url: String, } /// Adds syntax highlighting and playground Run buttons to Rust code blocks. struct CodeBlocks<'p, 'a, I: Iterator>> { inner: I, check_error_codes: ErrorCodes, edition: Edition, // Information about the playground if a URL has been specified, containing an // optional crate name and the URL. playground: &'p Option, } impl<'p, 'a, I: Iterator>> CodeBlocks<'p, 'a, I> { fn new( iter: I, error_codes: ErrorCodes, edition: Edition, playground: &'p Option, ) -> Self { CodeBlocks { inner: iter, check_error_codes: error_codes, edition, playground } } } impl<'a, I: Iterator>> Iterator for CodeBlocks<'_, 'a, I> { type Item = Event<'a>; fn next(&mut self) -> Option { let event = self.inner.next(); let Some(Event::Start(Tag::CodeBlock(kind))) = event else { return event; }; let mut original_text = String::new(); for event in &mut self.inner { match event { Event::End(TagEnd::CodeBlock) => break, Event::Text(ref s) => { original_text.push_str(s); } _ => {} } } let LangString { added_classes, compile_fail, should_panic, ignore, edition, .. } = match kind { CodeBlockKind::Fenced(ref lang) => { let parse_result = LangString::parse_without_check(lang, self.check_error_codes); if !parse_result.rust { let added_classes = parse_result.added_classes; let lang_string = if let Some(lang) = parse_result.unknown.first() { format!("language-{lang}") } else { String::new() }; let whitespace = if added_classes.is_empty() { "" } else { " " }; return Some(Event::Html( format!( "
\ 
\
                                     {text}\
\
", added_classes = added_classes.join(" "), text = Escape( original_text.strip_suffix('\n').unwrap_or(&original_text) ), ) .into(), )); } parse_result } CodeBlockKind::Indented => Default::default(), }; let lines = original_text.lines().filter_map(|l| map_line(l).for_html()); let text = lines.intersperse("\n".into()).collect::(); let explicit_edition = edition.is_some(); let edition = edition.unwrap_or(self.edition); let playground_button = self.playground.as_ref().and_then(|playground| { let krate = &playground.crate_name; let url = &playground.url; if url.is_empty() { return None; } let test = original_text .lines() .map(|l| map_line(l).for_code()) .intersperse("\n".into()) .collect::(); let krate = krate.as_ref().map(|s| s.as_str()); // FIXME: separate out the code to make a code block into runnable code // from the complicated doctest logic let opts = GlobalTestOptions { crate_name: krate.map(String::from).unwrap_or_default(), no_crate_inject: false, insert_indent_space: true, args_file: PathBuf::new(), }; let mut builder = doctest::BuildDocTestBuilder::new(&test).edition(edition); if let Some(krate) = krate { builder = builder.crate_name(krate); } let doctest = builder.build(None); let (wrapped, _) = doctest.generate_unique_doctest(&test, false, &opts, krate); let test = wrapped.to_string(); let channel = if test.contains("#![feature(") { "&version=nightly" } else { "" }; let test_escaped = small_url_encode(test); Some(format!( "", )) }); let tooltip = { use highlight::Tooltip::*; if ignore == Ignore::All { Some(IgnoreAll) } else if let Ignore::Some(platforms) = ignore { Some(IgnoreSome(platforms)) } else if compile_fail { Some(CompileFail) } else if should_panic { Some(ShouldPanic) } else if explicit_edition { Some(Edition(edition)) } else { None } }; // insert newline to clearly separate it from the // previous block so we can shorten the html output let s = format!( "\n{}", highlight::render_example_with_highlighting( &text, tooltip.as_ref(), playground_button.as_deref(), &added_classes, ) ); Some(Event::Html(s.into())) } } /// Make headings links with anchor IDs and build up TOC. struct LinkReplacerInner<'a> { links: &'a [RenderedLink], shortcut_link: Option<&'a RenderedLink>, } struct LinkReplacer<'a, I: Iterator>> { iter: I, inner: LinkReplacerInner<'a>, } impl<'a, I: Iterator>> LinkReplacer<'a, I> { fn new(iter: I, links: &'a [RenderedLink]) -> Self { LinkReplacer { iter, inner: { LinkReplacerInner { links, shortcut_link: None } } } } } // FIXME: Once we have specialized trait impl (for `Iterator` impl on `LinkReplacer`), // we can remove this type and move back `LinkReplacerInner` fields into `LinkReplacer`. struct SpannedLinkReplacer<'a, I: Iterator>> { iter: I, inner: LinkReplacerInner<'a>, } impl<'a, I: Iterator>> SpannedLinkReplacer<'a, I> { fn new(iter: I, links: &'a [RenderedLink]) -> Self { SpannedLinkReplacer { iter, inner: { LinkReplacerInner { links, shortcut_link: None } } } } } impl<'a> LinkReplacerInner<'a> { fn handle_event(&mut self, event: &mut Event<'a>) { // Replace intra-doc links and remove disambiguators from shortcut links (`[fn@f]`). match event { // This is a shortcut link that was resolved by the broken_link_callback: `[fn@f]` // Remove any disambiguator. Event::Start(Tag::Link { // [fn@f] or [fn@f][] link_type: LinkType::ShortcutUnknown | LinkType::CollapsedUnknown, dest_url, title, .. }) => { debug!("saw start of shortcut link to {dest_url} with title {title}"); // If this is a shortcut link, it was resolved by the broken_link_callback. // So the URL will already be updated properly. let link = self.links.iter().find(|&link| *link.href == **dest_url); // Since this is an external iterator, we can't replace the inner text just yet. // Store that we saw a link so we know to replace it later. if let Some(link) = link { trace!("it matched"); assert!(self.shortcut_link.is_none(), "shortcut links cannot be nested"); self.shortcut_link = Some(link); if title.is_empty() && !link.tooltip.is_empty() { *title = CowStr::Borrowed(link.tooltip.as_ref()); } } } // Now that we're done with the shortcut link, don't replace any more text. Event::End(TagEnd::Link) if self.shortcut_link.is_some() => { debug!("saw end of shortcut link"); self.shortcut_link = None; } // Handle backticks in inline code blocks, but only if we're in the middle of a shortcut link. // [`fn@f`] Event::Code(text) => { trace!("saw code {text}"); if let Some(link) = self.shortcut_link { // NOTE: this only replaces if the code block is the *entire* text. // If only part of the link has code highlighting, the disambiguator will not be removed. // e.g. [fn@`f`] // This is a limitation from `collect_intra_doc_links`: it passes a full link, // and does not distinguish at all between code blocks. // So we could never be sure we weren't replacing too much: // [fn@my_`f`unc] is treated the same as [my_func()] in that pass. // // NOTE: .get(1..len() - 1) is to strip the backticks if let Some(link) = self.links.iter().find(|l| { l.href == link.href && Some(&**text) == l.original_text.get(1..l.original_text.len() - 1) }) { debug!("replacing {text} with {new_text}", new_text = link.new_text); *text = CowStr::Borrowed(&link.new_text); } } } // Replace plain text in links, but only in the middle of a shortcut link. // [fn@f] Event::Text(text) => { trace!("saw text {text}"); if let Some(link) = self.shortcut_link { // NOTE: same limitations as `Event::Code` if let Some(link) = self .links .iter() .find(|l| l.href == link.href && **text == *l.original_text) { debug!("replacing {text} with {new_text}", new_text = link.new_text); *text = CowStr::Borrowed(&link.new_text); } } } // If this is a link, but not a shortcut link, // replace the URL, since the broken_link_callback was not called. Event::Start(Tag::Link { dest_url, title, .. }) => { if let Some(link) = self.links.iter().find(|&link| *link.original_text == **dest_url) { *dest_url = CowStr::Borrowed(link.href.as_ref()); if title.is_empty() && !link.tooltip.is_empty() { *title = CowStr::Borrowed(link.tooltip.as_ref()); } } } // Anything else couldn't have been a valid Rust path, so no need to replace the text. _ => {} } } } impl<'a, I: Iterator>> Iterator for LinkReplacer<'a, I> { type Item = Event<'a>; fn next(&mut self) -> Option { let mut event = self.iter.next(); if let Some(ref mut event) = event { self.inner.handle_event(event); } // Yield the modified event event } } impl<'a, I: Iterator>> Iterator for SpannedLinkReplacer<'a, I> { type Item = SpannedEvent<'a>; fn next(&mut self) -> Option { let (mut event, range) = self.iter.next()?; self.inner.handle_event(&mut event); // Yield the modified event Some((event, range)) } } /// Wrap HTML tables into `
` to prevent having the doc blocks width being too big. struct TableWrapper<'a, I: Iterator>> { inner: I, stored_events: VecDeque>, } impl<'a, I: Iterator>> TableWrapper<'a, I> { fn new(iter: I) -> Self { Self { inner: iter, stored_events: VecDeque::new() } } } impl<'a, I: Iterator>> Iterator for TableWrapper<'a, I> { type Item = Event<'a>; fn next(&mut self) -> Option { if let Some(first) = self.stored_events.pop_front() { return Some(first); } let event = self.inner.next()?; Some(match event { Event::Start(Tag::Table(t)) => { self.stored_events.push_back(Event::Start(Tag::Table(t))); Event::Html(CowStr::Borrowed("
")) } Event::End(TagEnd::Table) => { self.stored_events.push_back(Event::Html(CowStr::Borrowed("
"))); Event::End(TagEnd::Table) } e => e, }) } } type SpannedEvent<'a> = (Event<'a>, Range); /// Make headings links with anchor IDs and build up TOC. struct HeadingLinks<'a, 'b, 'ids, I> { inner: I, toc: Option<&'b mut TocBuilder>, buf: VecDeque>, id_map: &'ids mut IdMap, heading_offset: HeadingOffset, } impl<'b, 'ids, I> HeadingLinks<'_, 'b, 'ids, I> { fn new( iter: I, toc: Option<&'b mut TocBuilder>, ids: &'ids mut IdMap, heading_offset: HeadingOffset, ) -> Self { HeadingLinks { inner: iter, toc, buf: VecDeque::new(), id_map: ids, heading_offset } } } impl<'a, I: Iterator>> Iterator for HeadingLinks<'a, '_, '_, I> { type Item = SpannedEvent<'a>; fn next(&mut self) -> Option { if let Some(e) = self.buf.pop_front() { return Some(e); } let event = self.inner.next(); if let Some((Event::Start(Tag::Heading { level, .. }), _)) = event { let mut id = String::new(); for event in &mut self.inner { match &event.0 { Event::End(TagEnd::Heading(_)) => break, Event::Text(text) | Event::Code(text) => { id.extend(text.chars().filter_map(slugify)); self.buf.push_back(event); } _ => self.buf.push_back(event), } } let id = self.id_map.derive(id); if let Some(ref mut builder) = self.toc { let mut text_header = String::new(); plain_text_from_events(self.buf.iter().map(|(ev, _)| ev.clone()), &mut text_header); let mut html_header = String::new(); html_text_from_events(self.buf.iter().map(|(ev, _)| ev.clone()), &mut html_header); let sec = builder.push(level as u32, text_header, html_header, id.clone()); self.buf.push_front((Event::Html(format!("{sec} ").into()), 0..0)); } let level = std::cmp::min(level as u32 + (self.heading_offset as u32), MAX_HEADER_LEVEL); self.buf.push_back((Event::Html(format!("").into()), 0..0)); let start_tags = format!("§"); return Some((Event::Html(start_tags.into()), 0..0)); } event } } /// Extracts just the first paragraph. struct SummaryLine<'a, I: Iterator>> { inner: I, started: bool, depth: u32, skipped_tags: u32, } impl<'a, I: Iterator>> SummaryLine<'a, I> { fn new(iter: I) -> Self { SummaryLine { inner: iter, started: false, depth: 0, skipped_tags: 0 } } } fn check_if_allowed_tag(t: &TagEnd) -> bool { matches!( t, TagEnd::Paragraph | TagEnd::Emphasis | TagEnd::Strong | TagEnd::Strikethrough | TagEnd::Link | TagEnd::BlockQuote ) } fn is_forbidden_tag(t: &TagEnd) -> bool { matches!( t, TagEnd::CodeBlock | TagEnd::Table | TagEnd::TableHead | TagEnd::TableRow | TagEnd::TableCell | TagEnd::FootnoteDefinition ) } impl<'a, I: Iterator>> Iterator for SummaryLine<'a, I> { type Item = Event<'a>; fn next(&mut self) -> Option { if self.started && self.depth == 0 { return None; } if !self.started { self.started = true; } if let Some(event) = self.inner.next() { let mut is_start = true; let is_allowed_tag = match event { Event::Start(ref c) => { if is_forbidden_tag(&c.to_end()) { self.skipped_tags += 1; return None; } self.depth += 1; check_if_allowed_tag(&c.to_end()) } Event::End(ref c) => { if is_forbidden_tag(c) { self.skipped_tags += 1; return None; } self.depth -= 1; is_start = false; check_if_allowed_tag(c) } Event::FootnoteReference(_) => { self.skipped_tags += 1; false } _ => true, }; if !is_allowed_tag { self.skipped_tags += 1; } return if !is_allowed_tag { if is_start { Some(Event::Start(Tag::Paragraph)) } else { Some(Event::End(TagEnd::Paragraph)) } } else { Some(event) }; } None } } /// A newtype that represents a relative line number in Markdown. /// /// In other words, this represents an offset from the first line of Markdown /// in a doc comment or other source. If the first Markdown line appears on line 32, /// and the `MdRelLine` is 3, then the absolute line for this one is 35. I.e., it's /// a zero-based offset. pub(crate) struct MdRelLine { offset: usize, } impl MdRelLine { /// See struct docs. pub(crate) const fn new(offset: usize) -> Self { Self { offset } } /// See struct docs. pub(crate) const fn offset(self) -> usize { self.offset } } pub(crate) fn find_testable_code( doc: &str, tests: &mut T, error_codes: ErrorCodes, extra_info: Option<&ExtraInfo<'_>>, ) { find_codes(doc, tests, error_codes, extra_info, false) } pub(crate) fn find_codes( doc: &str, tests: &mut T, error_codes: ErrorCodes, extra_info: Option<&ExtraInfo<'_>>, include_non_rust: bool, ) { let mut parser = Parser::new_ext(doc, main_body_opts()).into_offset_iter(); let mut prev_offset = 0; let mut nb_lines = 0; let mut register_header = None; while let Some((event, offset)) = parser.next() { match event { Event::Start(Tag::CodeBlock(kind)) => { let block_info = match kind { CodeBlockKind::Fenced(ref lang) => { if lang.is_empty() { Default::default() } else { LangString::parse(lang, error_codes, extra_info) } } CodeBlockKind::Indented => Default::default(), }; if !include_non_rust && !block_info.rust { continue; } let mut test_s = String::new(); while let Some((Event::Text(s), _)) = parser.next() { test_s.push_str(&s); } let text = test_s .lines() .map(|l| map_line(l).for_code()) .collect::>>() .join("\n"); nb_lines += doc[prev_offset..offset.start].lines().count(); // If there are characters between the preceding line ending and // this code block, `str::lines` will return an additional line, // which we subtract here. if nb_lines != 0 && !&doc[prev_offset..offset.start].ends_with('\n') { nb_lines -= 1; } let line = MdRelLine::new(nb_lines); tests.visit_test(text, block_info, line); prev_offset = offset.start; } Event::Start(Tag::Heading { level, .. }) => { register_header = Some(level as u32); } Event::Text(ref s) if register_header.is_some() => { let level = register_header.unwrap(); tests.visit_header(s, level); register_header = None; } _ => {} } } } pub(crate) struct ExtraInfo<'tcx> { def_id: LocalDefId, sp: Span, tcx: TyCtxt<'tcx>, } impl<'tcx> ExtraInfo<'tcx> { pub(crate) fn new(tcx: TyCtxt<'tcx>, def_id: LocalDefId, sp: Span) -> ExtraInfo<'tcx> { ExtraInfo { def_id, sp, tcx } } fn error_invalid_codeblock_attr(&self, msg: impl Into) { self.tcx.node_span_lint( crate::lint::INVALID_CODEBLOCK_ATTRIBUTES, self.tcx.local_def_id_to_hir_id(self.def_id), self.sp, |lint| { lint.primary_message(msg); }, ); } fn error_invalid_codeblock_attr_with_help( &self, msg: impl Into, f: impl for<'a, 'b> FnOnce(&'b mut Diag<'a, ()>), ) { self.tcx.node_span_lint( crate::lint::INVALID_CODEBLOCK_ATTRIBUTES, self.tcx.local_def_id_to_hir_id(self.def_id), self.sp, |lint| { lint.primary_message(msg); f(lint); }, ); } } #[derive(Eq, PartialEq, Clone, Debug)] pub(crate) struct LangString { pub(crate) original: String, pub(crate) should_panic: bool, pub(crate) no_run: bool, pub(crate) ignore: Ignore, pub(crate) rust: bool, pub(crate) test_harness: bool, pub(crate) compile_fail: bool, pub(crate) standalone_crate: bool, pub(crate) error_codes: Vec, pub(crate) edition: Option, pub(crate) added_classes: Vec, pub(crate) unknown: Vec, } #[derive(Eq, PartialEq, Clone, Debug)] pub(crate) enum Ignore { All, None, Some(Vec), } /// This is the parser for fenced codeblocks attributes. It implements the following eBNF: /// /// ```eBNF /// lang-string = *(token-list / delimited-attribute-list / comment) /// /// bareword = LEADINGCHAR *(CHAR) /// bareword-without-leading-char = CHAR *(CHAR) /// quoted-string = QUOTE *(NONQUOTE) QUOTE /// token = bareword / quoted-string /// token-without-leading-char = bareword-without-leading-char / quoted-string /// sep = COMMA/WS *(COMMA/WS) /// attribute = (DOT token)/(token EQUAL token-without-leading-char) /// attribute-list = [sep] attribute *(sep attribute) [sep] /// delimited-attribute-list = OPEN-CURLY-BRACKET attribute-list CLOSE-CURLY-BRACKET /// token-list = [sep] token *(sep token) [sep] /// comment = OPEN_PAREN *(all characters) CLOSE_PAREN /// /// OPEN_PAREN = "(" /// CLOSE_PARENT = ")" /// OPEN-CURLY-BRACKET = "{" /// CLOSE-CURLY-BRACKET = "}" /// LEADINGCHAR = ALPHA | DIGIT | "_" | "-" | ":" /// ; All ASCII punctuation except comma, quote, equals, backslash, grave (backquote) and braces. /// ; Comma is used to separate language tokens, so it can't be used in one. /// ; Quote is used to allow otherwise-disallowed characters in language tokens. /// ; Equals is used to make key=value pairs in attribute blocks. /// ; Backslash and grave are special Markdown characters. /// ; Braces are used to start an attribute block. /// CHAR = ALPHA | DIGIT | "_" | "-" | ":" | "." | "!" | "#" | "$" | "%" | "&" | "*" | "+" | "/" | /// ";" | "<" | ">" | "?" | "@" | "^" | "|" | "~" /// NONQUOTE = %x09 / %x20 / %x21 / %x23-7E ; TAB / SPACE / all printable characters except `"` /// COMMA = "," /// DOT = "." /// EQUAL = "=" /// /// ALPHA = %x41-5A / %x61-7A ; A-Z / a-z /// DIGIT = %x30-39 /// WS = %x09 / " " /// ``` pub(crate) struct TagIterator<'a, 'tcx> { inner: Peekable>, data: &'a str, is_in_attribute_block: bool, extra: Option<&'a ExtraInfo<'tcx>>, is_error: bool, } #[derive(Clone, Debug, Eq, PartialEq)] pub(crate) enum LangStringToken<'a> { LangToken(&'a str), ClassAttribute(&'a str), KeyValueAttribute(&'a str, &'a str), } fn is_leading_char(c: char) -> bool { c == '_' || c == '-' || c == ':' || c.is_ascii_alphabetic() || c.is_ascii_digit() } fn is_bareword_char(c: char) -> bool { is_leading_char(c) || ".!#$%&*+/;<>?@^|~".contains(c) } fn is_separator(c: char) -> bool { c == ' ' || c == ',' || c == '\t' } struct Indices { start: usize, end: usize, } impl<'a, 'tcx> TagIterator<'a, 'tcx> { pub(crate) fn new(data: &'a str, extra: Option<&'a ExtraInfo<'tcx>>) -> Self { Self { inner: data.char_indices().peekable(), data, is_in_attribute_block: false, extra, is_error: false, } } fn emit_error(&mut self, err: impl Into) { if let Some(extra) = self.extra { extra.error_invalid_codeblock_attr(err); } self.is_error = true; } fn skip_separators(&mut self) -> Option { while let Some((pos, c)) = self.inner.peek() { if !is_separator(*c) { return Some(*pos); } self.inner.next(); } None } fn parse_string(&mut self, start: usize) -> Option { for (pos, c) in self.inner.by_ref() { if c == '"' { return Some(Indices { start: start + 1, end: pos }); } } self.emit_error("unclosed quote string `\"`"); None } fn parse_class(&mut self, start: usize) -> Option> { while let Some((pos, c)) = self.inner.peek().copied() { if is_bareword_char(c) { self.inner.next(); } else { let class = &self.data[start + 1..pos]; if class.is_empty() { self.emit_error(format!("unexpected `{c}` character after `.`")); return None; } else if self.check_after_token() { return Some(LangStringToken::ClassAttribute(class)); } else { return None; } } } let class = &self.data[start + 1..]; if class.is_empty() { self.emit_error("missing character after `.`"); None } else if self.check_after_token() { Some(LangStringToken::ClassAttribute(class)) } else { None } } fn parse_token(&mut self, start: usize) -> Option { while let Some((pos, c)) = self.inner.peek() { if !is_bareword_char(*c) { return Some(Indices { start, end: *pos }); } self.inner.next(); } self.emit_error("unexpected end"); None } fn parse_key_value(&mut self, c: char, start: usize) -> Option> { let key_indices = if c == '"' { self.parse_string(start)? } else { self.parse_token(start)? }; if key_indices.start == key_indices.end { self.emit_error("unexpected empty string as key"); return None; } if let Some((_, c)) = self.inner.next() { if c != '=' { self.emit_error(format!("expected `=`, found `{c}`")); return None; } } else { self.emit_error("unexpected end"); return None; } let value_indices = match self.inner.next() { Some((pos, '"')) => self.parse_string(pos)?, Some((pos, c)) if is_bareword_char(c) => self.parse_token(pos)?, Some((_, c)) => { self.emit_error(format!("unexpected `{c}` character after `=`")); return None; } None => { self.emit_error("expected value after `=`"); return None; } }; if value_indices.start == value_indices.end { self.emit_error("unexpected empty string as value"); None } else if self.check_after_token() { Some(LangStringToken::KeyValueAttribute( &self.data[key_indices.start..key_indices.end], &self.data[value_indices.start..value_indices.end], )) } else { None } } /// Returns `false` if an error was emitted. fn check_after_token(&mut self) -> bool { if let Some((_, c)) = self.inner.peek().copied() { if c == '}' || is_separator(c) || c == '(' { true } else { self.emit_error(format!("unexpected `{c}` character")); false } } else { // The error will be caught on the next iteration. true } } fn parse_in_attribute_block(&mut self) -> Option> { if let Some((pos, c)) = self.inner.next() { if c == '}' { self.is_in_attribute_block = false; return self.next(); } else if c == '.' { return self.parse_class(pos); } else if c == '"' || is_leading_char(c) { return self.parse_key_value(c, pos); } else { self.emit_error(format!("unexpected character `{c}`")); return None; } } self.emit_error("unclosed attribute block (`{}`): missing `}` at the end"); None } /// Returns `false` if an error was emitted. fn skip_paren_block(&mut self) -> bool { for (_, c) in self.inner.by_ref() { if c == ')' { return true; } } self.emit_error("unclosed comment: missing `)` at the end"); false } fn parse_outside_attribute_block(&mut self, start: usize) -> Option> { while let Some((pos, c)) = self.inner.next() { if c == '"' { if pos != start { self.emit_error("expected ` `, `{` or `,` found `\"`"); return None; } let indices = self.parse_string(pos)?; if let Some((_, c)) = self.inner.peek().copied() && c != '{' && !is_separator(c) && c != '(' { self.emit_error(format!("expected ` `, `{{` or `,` after `\"`, found `{c}`")); return None; } return Some(LangStringToken::LangToken(&self.data[indices.start..indices.end])); } else if c == '{' { self.is_in_attribute_block = true; return self.next(); } else if is_separator(c) { if pos != start { return Some(LangStringToken::LangToken(&self.data[start..pos])); } return self.next(); } else if c == '(' { if !self.skip_paren_block() { return None; } if pos != start { return Some(LangStringToken::LangToken(&self.data[start..pos])); } return self.next(); } else if (pos == start && is_leading_char(c)) || (pos != start && is_bareword_char(c)) { continue; } else { self.emit_error(format!("unexpected character `{c}`")); return None; } } let token = &self.data[start..]; if token.is_empty() { None } else { Some(LangStringToken::LangToken(&self.data[start..])) } } } impl<'a> Iterator for TagIterator<'a, '_> { type Item = LangStringToken<'a>; fn next(&mut self) -> Option { if self.is_error { return None; } let Some(start) = self.skip_separators() else { if self.is_in_attribute_block { self.emit_error("unclosed attribute block (`{}`): missing `}` at the end"); } return None; }; if self.is_in_attribute_block { self.parse_in_attribute_block() } else { self.parse_outside_attribute_block(start) } } } impl Default for LangString { fn default() -> Self { Self { original: String::new(), should_panic: false, no_run: false, ignore: Ignore::None, rust: true, test_harness: false, compile_fail: false, standalone_crate: false, error_codes: Vec::new(), edition: None, added_classes: Vec::new(), unknown: Vec::new(), } } } impl LangString { fn parse_without_check(string: &str, allow_error_code_check: ErrorCodes) -> Self { Self::parse(string, allow_error_code_check, None) } fn parse( string: &str, allow_error_code_check: ErrorCodes, extra: Option<&ExtraInfo<'_>>, ) -> Self { let allow_error_code_check = allow_error_code_check.as_bool(); let mut seen_rust_tags = false; let mut seen_other_tags = false; let mut seen_custom_tag = false; let mut data = LangString::default(); let mut ignores = vec![]; data.original = string.to_owned(); let mut call = |tokens: &mut dyn Iterator>| { for token in tokens { match token { LangStringToken::LangToken("should_panic") => { data.should_panic = true; seen_rust_tags = !seen_other_tags; } LangStringToken::LangToken("no_run") => { data.no_run = true; seen_rust_tags = !seen_other_tags; } LangStringToken::LangToken("ignore") => { data.ignore = Ignore::All; seen_rust_tags = !seen_other_tags; } LangStringToken::LangToken(x) if let Some(ignore) = x.strip_prefix("ignore-") => { ignores.push(ignore.to_owned()); seen_rust_tags = !seen_other_tags; } LangStringToken::LangToken("rust") => { data.rust = true; seen_rust_tags = true; } LangStringToken::LangToken("custom") => { seen_custom_tag = true; } LangStringToken::LangToken("test_harness") => { data.test_harness = true; seen_rust_tags = !seen_other_tags || seen_rust_tags; } LangStringToken::LangToken("compile_fail") => { data.compile_fail = true; seen_rust_tags = !seen_other_tags || seen_rust_tags; data.no_run = true; } LangStringToken::LangToken("standalone_crate") => { data.standalone_crate = true; seen_rust_tags = !seen_other_tags || seen_rust_tags; } LangStringToken::LangToken(x) if let Some(edition) = x.strip_prefix("edition") => { data.edition = edition.parse::().ok(); } LangStringToken::LangToken(x) if let Some(edition) = x.strip_prefix("rust") && edition.parse::().is_ok() && let Some(extra) = extra => { extra.error_invalid_codeblock_attr_with_help( format!("unknown attribute `{x}`"), |lint| { lint.help(format!( "there is an attribute with a similar name: `edition{edition}`" )); }, ); } LangStringToken::LangToken(x) if allow_error_code_check && let Some(error_code) = x.strip_prefix('E') && error_code.len() == 4 => { if error_code.parse::().is_ok() { data.error_codes.push(x.to_owned()); seen_rust_tags = !seen_other_tags || seen_rust_tags; } else { seen_other_tags = true; } } LangStringToken::LangToken(x) if let Some(extra) = extra => { if let Some(help) = match x.to_lowercase().as_str() { "compile-fail" | "compile_fail" | "compilefail" => Some( "use `compile_fail` to invert the results of this test, so that it \ passes if it cannot be compiled and fails if it can", ), "should-panic" | "should_panic" | "shouldpanic" => Some( "use `should_panic` to invert the results of this test, so that if \ passes if it panics and fails if it does not", ), "no-run" | "no_run" | "norun" => Some( "use `no_run` to compile, but not run, the code sample during \ testing", ), "test-harness" | "test_harness" | "testharness" => Some( "use `test_harness` to run functions marked `#[test]` instead of a \ potentially-implicit `main` function", ), "standalone" | "standalone_crate" | "standalone-crate" if extra.sp.at_least_rust_2024() => { Some( "use `standalone_crate` to compile this code block \ separately", ) } _ => None, } { extra.error_invalid_codeblock_attr_with_help( format!("unknown attribute `{x}`"), |lint| { lint.help(help).help( "this code block may be skipped during testing, \ because unknown attributes are treated as markers for \ code samples written in other programming languages, \ unless it is also explicitly marked as `rust`", ); }, ); } seen_other_tags = true; data.unknown.push(x.to_owned()); } LangStringToken::LangToken(x) => { seen_other_tags = true; data.unknown.push(x.to_owned()); } LangStringToken::KeyValueAttribute("class", value) => { data.added_classes.push(value.to_owned()); } LangStringToken::KeyValueAttribute(key, ..) if let Some(extra) = extra => { extra .error_invalid_codeblock_attr(format!("unsupported attribute `{key}`")); } LangStringToken::ClassAttribute(class) => { data.added_classes.push(class.to_owned()); } _ => {} } } }; let mut tag_iter = TagIterator::new(string, extra); call(&mut tag_iter); // ignore-foo overrides ignore if !ignores.is_empty() { data.ignore = Ignore::Some(ignores); } data.rust &= !seen_custom_tag && (!seen_other_tags || seen_rust_tags) && !tag_iter.is_error; data } } impl<'a> Markdown<'a> { pub fn write_into(self, f: impl fmt::Write) -> fmt::Result { // This is actually common enough to special-case if self.content.is_empty() { return Ok(()); } html::write_html_fmt(f, self.into_iter()) } fn into_iter(self) -> CodeBlocks<'a, 'a, impl Iterator>> { let Markdown { content: md, links, ids, error_codes: codes, edition, playground, heading_offset, } = self; let replacer = move |broken_link: BrokenLink<'_>| { links .iter() .find(|link| *link.original_text == *broken_link.reference) .map(|link| (link.href.as_str().into(), link.tooltip.as_str().into())) }; let p = Parser::new_with_broken_link_callback(md, main_body_opts(), Some(replacer)); let p = p.into_offset_iter(); ids.handle_footnotes(|ids, existing_footnotes| { let p = HeadingLinks::new(p, None, ids, heading_offset); let p = SpannedLinkReplacer::new(p, links); let p = footnotes::Footnotes::new(p, existing_footnotes); let p = TableWrapper::new(p.map(|(ev, _)| ev)); CodeBlocks::new(p, codes, edition, playground) }) } /// Convert markdown to (summary, remaining) HTML. /// /// - The summary is the first top-level Markdown element (usually a paragraph, but potentially /// any block). /// - The remaining docs contain everything after the summary. pub(crate) fn split_summary_and_content(self) -> (Option, Option) { if self.content.is_empty() { return (None, None); } let mut p = self.into_iter(); let mut event_level = 0; let mut summary_events = Vec::new(); let mut get_next_tag = false; let mut end_of_summary = false; while let Some(event) = p.next() { match event { Event::Start(_) => event_level += 1, Event::End(kind) => { event_level -= 1; if event_level == 0 { // We're back at the "top" so it means we're done with the summary. end_of_summary = true; // We surround tables with `
` HTML tags so this is a special case. get_next_tag = kind == TagEnd::Table; } } _ => {} } summary_events.push(event); if end_of_summary { if get_next_tag && let Some(event) = p.next() { summary_events.push(event); } break; } } let mut summary = String::new(); html::push_html(&mut summary, summary_events.into_iter()); if summary.is_empty() { return (None, None); } let mut content = String::new(); html::push_html(&mut content, p); if content.is_empty() { (Some(summary), None) } else { (Some(summary), Some(content)) } } } impl MarkdownWithToc<'_> { pub(crate) fn into_parts(self) -> (Toc, String) { let MarkdownWithToc { content: md, links, ids, error_codes: codes, edition, playground } = self; // This is actually common enough to special-case if md.is_empty() { return (Toc { entries: Vec::new() }, String::new()); } let mut replacer = |broken_link: BrokenLink<'_>| { links .iter() .find(|link| *link.original_text == *broken_link.reference) .map(|link| (link.href.as_str().into(), link.tooltip.as_str().into())) }; let p = Parser::new_with_broken_link_callback(md, main_body_opts(), Some(&mut replacer)); let p = p.into_offset_iter(); let mut s = String::with_capacity(md.len() * 3 / 2); let mut toc = TocBuilder::new(); ids.handle_footnotes(|ids, existing_footnotes| { let p = HeadingLinks::new(p, Some(&mut toc), ids, HeadingOffset::H1); let p = footnotes::Footnotes::new(p, existing_footnotes); let p = TableWrapper::new(p.map(|(ev, _)| ev)); let p = CodeBlocks::new(p, codes, edition, playground); html::push_html(&mut s, p); }); (toc.into_toc(), s) } pub(crate) fn write_into(self, mut f: impl fmt::Write) -> fmt::Result { let (toc, s) = self.into_parts(); write!(f, "{s}", toc = toc.print()) } } impl MarkdownItemInfo<'_> { pub(crate) fn write_into(self, mut f: impl fmt::Write) -> fmt::Result { let MarkdownItemInfo(md, ids) = self; // This is actually common enough to special-case if md.is_empty() { return Ok(()); } let p = Parser::new_ext(md, main_body_opts()).into_offset_iter(); // Treat inline HTML as plain text. let p = p.map(|event| match event.0 { Event::Html(text) | Event::InlineHtml(text) => (Event::Text(text), event.1), _ => event, }); ids.handle_footnotes(|ids, existing_footnotes| { let p = HeadingLinks::new(p, None, ids, HeadingOffset::H1); let p = footnotes::Footnotes::new(p, existing_footnotes); let p = TableWrapper::new(p.map(|(ev, _)| ev)); let p = p.filter(|event| { !matches!(event, Event::Start(Tag::Paragraph) | Event::End(TagEnd::Paragraph)) }); html::write_html_fmt(&mut f, p) }) } } impl MarkdownSummaryLine<'_> { pub(crate) fn into_string_with_has_more_content(self) -> (String, bool) { let MarkdownSummaryLine(md, links) = self; // This is actually common enough to special-case if md.is_empty() { return (String::new(), false); } let mut replacer = |broken_link: BrokenLink<'_>| { links .iter() .find(|link| *link.original_text == *broken_link.reference) .map(|link| (link.href.as_str().into(), link.tooltip.as_str().into())) }; let p = Parser::new_with_broken_link_callback(md, summary_opts(), Some(&mut replacer)) .peekable(); let mut summary = SummaryLine::new(p); let mut s = String::new(); let without_paragraphs = LinkReplacer::new(&mut summary, links).filter(|event| { !matches!(event, Event::Start(Tag::Paragraph) | Event::End(TagEnd::Paragraph)) }); html::push_html(&mut s, without_paragraphs); let has_more_content = matches!(summary.inner.peek(), Some(Event::Start(_))) || summary.skipped_tags > 0; (s, has_more_content) } pub(crate) fn into_string(self) -> String { self.into_string_with_has_more_content().0 } } /// Renders a subset of Markdown in the first paragraph of the provided Markdown. /// /// - *Italics*, **bold**, and `inline code` styles **are** rendered. /// - Headings and links are stripped (though the text *is* rendered). /// - HTML, code blocks, and everything else are ignored. /// /// Returns a tuple of the rendered HTML string and whether the output was shortened /// due to the provided `length_limit`. fn markdown_summary_with_limit( md: &str, link_names: &[RenderedLink], length_limit: usize, ) -> (String, bool) { if md.is_empty() { return (String::new(), false); } let mut replacer = |broken_link: BrokenLink<'_>| { link_names .iter() .find(|link| *link.original_text == *broken_link.reference) .map(|link| (link.href.as_str().into(), link.tooltip.as_str().into())) }; let p = Parser::new_with_broken_link_callback(md, summary_opts(), Some(&mut replacer)); let mut p = LinkReplacer::new(p, link_names); let mut buf = HtmlWithLimit::new(length_limit); let mut stopped_early = false; let _ = p.try_for_each(|event| { match &event { Event::Text(text) => { let r = text.split_inclusive(char::is_whitespace).try_for_each(|word| buf.push(word)); if r.is_break() { stopped_early = true; } return r; } Event::Code(code) => { buf.open_tag("code"); let r = buf.push(code); if r.is_break() { stopped_early = true; } else { buf.close_tag(); } return r; } Event::Start(tag) => match tag { Tag::Emphasis => buf.open_tag("em"), Tag::Strong => buf.open_tag("strong"), Tag::CodeBlock(..) => return ControlFlow::Break(()), _ => {} }, Event::End(tag) => match tag { TagEnd::Emphasis | TagEnd::Strong => buf.close_tag(), TagEnd::Paragraph | TagEnd::Heading(_) => return ControlFlow::Break(()), _ => {} }, Event::HardBreak | Event::SoftBreak => buf.push(" ")?, _ => {} }; ControlFlow::Continue(()) }); (buf.finish(), stopped_early) } /// Renders a shortened first paragraph of the given Markdown as a subset of Markdown, /// making it suitable for contexts like the search index. /// /// Will shorten to 59 or 60 characters, including an ellipsis (…) if it was shortened. /// /// See [`markdown_summary_with_limit`] for details about what is rendered and what is not. pub(crate) fn short_markdown_summary(markdown: &str, link_names: &[RenderedLink]) -> String { let (mut s, was_shortened) = markdown_summary_with_limit(markdown, link_names, 59); if was_shortened { s.push('…'); } s } /// Renders the first paragraph of the provided markdown as plain text. /// Useful for alt-text. /// /// - Headings, links, and formatting are stripped. /// - Inline code is rendered as-is, surrounded by backticks. /// - HTML and code blocks are ignored. pub(crate) fn plain_text_summary(md: &str, link_names: &[RenderedLink]) -> String { if md.is_empty() { return String::new(); } let mut s = String::with_capacity(md.len() * 3 / 2); let mut replacer = |broken_link: BrokenLink<'_>| { link_names .iter() .find(|link| *link.original_text == *broken_link.reference) .map(|link| (link.href.as_str().into(), link.tooltip.as_str().into())) }; let p = Parser::new_with_broken_link_callback(md, summary_opts(), Some(&mut replacer)); plain_text_from_events(p, &mut s); s } pub(crate) fn plain_text_from_events<'a>( events: impl Iterator>, s: &mut String, ) { for event in events { match &event { Event::Text(text) => s.push_str(text), Event::Code(code) => { s.push('`'); s.push_str(code); s.push('`'); } Event::HardBreak | Event::SoftBreak => s.push(' '), Event::Start(Tag::CodeBlock(..)) => break, Event::End(TagEnd::Paragraph) => break, Event::End(TagEnd::Heading(..)) => break, _ => (), } } } pub(crate) fn html_text_from_events<'a>( events: impl Iterator>, s: &mut String, ) { for event in events { match &event { Event::Text(text) => { write!(s, "{}", EscapeBodyText(text)).expect("string alloc infallible") } Event::Code(code) => { s.push_str(""); write!(s, "{}", EscapeBodyText(code)).expect("string alloc infallible"); s.push_str(""); } Event::HardBreak | Event::SoftBreak => s.push(' '), Event::Start(Tag::CodeBlock(..)) => break, Event::End(TagEnd::Paragraph) => break, Event::End(TagEnd::Heading(..)) => break, _ => (), } } } #[derive(Debug)] pub(crate) struct MarkdownLink { pub kind: LinkType, pub link: String, pub range: MarkdownLinkRange, } #[derive(Clone, Debug)] pub(crate) enum MarkdownLinkRange { /// Normally, markdown link warnings point only at the destination. Destination(Range), /// In some cases, it's not possible to point at the destination. /// Usually, this happens because backslashes `\\` are used. /// When that happens, point at the whole link, and don't provide structured suggestions. WholeLink(Range), } impl MarkdownLinkRange { /// Extracts the inner range. pub fn inner_range(&self) -> &Range { match self { MarkdownLinkRange::Destination(range) => range, MarkdownLinkRange::WholeLink(range) => range, } } } pub(crate) fn markdown_links<'md, R>( md: &'md str, preprocess_link: impl Fn(MarkdownLink) -> Option, ) -> Vec { use itertools::Itertools; if md.is_empty() { return vec![]; } // FIXME: remove this function once pulldown_cmark can provide spans for link definitions. let locate = |s: &str, fallback: Range| unsafe { let s_start = s.as_ptr(); let s_end = s_start.add(s.len()); let md_start = md.as_ptr(); let md_end = md_start.add(md.len()); if md_start <= s_start && s_end <= md_end { let start = s_start.offset_from(md_start) as usize; let end = s_end.offset_from(md_start) as usize; MarkdownLinkRange::Destination(start..end) } else { MarkdownLinkRange::WholeLink(fallback) } }; let span_for_link = |link: &CowStr<'_>, span: Range| { // For diagnostics, we want to underline the link's definition but `span` will point at // where the link is used. This is a problem for reference-style links, where the definition // is separate from the usage. match link { // `Borrowed` variant means the string (the link's destination) may come directly from // the markdown text and we can locate the original link destination. // NOTE: LinkReplacer also provides `Borrowed` but possibly from other sources, // so `locate()` can fall back to use `span`. CowStr::Borrowed(s) => locate(s, span), // For anything else, we can only use the provided range. CowStr::Boxed(_) | CowStr::Inlined(_) => MarkdownLinkRange::WholeLink(span), } }; let span_for_refdef = |link: &CowStr<'_>, span: Range| { // We want to underline the link's definition, but `span` will point at the entire refdef. // Skip the label, then try to find the entire URL. let mut square_brace_count = 0; let mut iter = md.as_bytes()[span.start..span.end].iter().copied().enumerate(); for (_i, c) in &mut iter { match c { b':' if square_brace_count == 0 => break, b'[' => square_brace_count += 1, b']' => square_brace_count -= 1, _ => {} } } while let Some((i, c)) = iter.next() { if c == b'<' { while let Some((j, c)) = iter.next() { match c { b'\\' => { let _ = iter.next(); } b'>' => { return MarkdownLinkRange::Destination( i + 1 + span.start..j + span.start, ); } _ => {} } } } else if !c.is_ascii_whitespace() { for (j, c) in iter.by_ref() { if c.is_ascii_whitespace() { return MarkdownLinkRange::Destination(i + span.start..j + span.start); } } return MarkdownLinkRange::Destination(i + span.start..span.end); } } span_for_link(link, span) }; let span_for_offset_backward = |span: Range, open: u8, close: u8| { let mut open_brace = !0; let mut close_brace = !0; for (i, b) in md.as_bytes()[span.clone()].iter().copied().enumerate().rev() { let i = i + span.start; if b == close { close_brace = i; break; } } if close_brace < span.start || close_brace >= span.end { return MarkdownLinkRange::WholeLink(span); } let mut nesting = 1; for (i, b) in md.as_bytes()[span.start..close_brace].iter().copied().enumerate().rev() { let i = i + span.start; if b == close { nesting += 1; } if b == open { nesting -= 1; } if nesting == 0 { open_brace = i; break; } } assert!(open_brace != close_brace); if open_brace < span.start || open_brace >= span.end { return MarkdownLinkRange::WholeLink(span); } // do not actually include braces in the span let range = (open_brace + 1)..close_brace; MarkdownLinkRange::Destination(range) }; let span_for_offset_forward = |span: Range, open: u8, close: u8| { let mut open_brace = !0; let mut close_brace = !0; for (i, b) in md.as_bytes()[span.clone()].iter().copied().enumerate() { let i = i + span.start; if b == open { open_brace = i; break; } } if open_brace < span.start || open_brace >= span.end { return MarkdownLinkRange::WholeLink(span); } let mut nesting = 0; for (i, b) in md.as_bytes()[open_brace..span.end].iter().copied().enumerate() { let i = i + open_brace; if b == close { nesting -= 1; } if b == open { nesting += 1; } if nesting == 0 { close_brace = i; break; } } assert!(open_brace != close_brace); if open_brace < span.start || open_brace >= span.end { return MarkdownLinkRange::WholeLink(span); } // do not actually include braces in the span let range = (open_brace + 1)..close_brace; MarkdownLinkRange::Destination(range) }; let mut broken_link_callback = |link: BrokenLink<'md>| Some((link.reference, "".into())); let event_iter = Parser::new_with_broken_link_callback( md, main_body_opts(), Some(&mut broken_link_callback), ) .into_offset_iter(); let mut links = Vec::new(); let mut refdefs = FxIndexMap::default(); for (label, refdef) in event_iter.reference_definitions().iter().sorted_by_key(|x| x.0) { refdefs.insert(label.to_string(), (false, refdef.dest.to_string(), refdef.span.clone())); } for (event, span) in event_iter { match event { Event::Start(Tag::Link { link_type, dest_url, id, .. }) if may_be_doc_link(link_type) => { let range = match link_type { // Link is pulled from the link itself. LinkType::ReferenceUnknown | LinkType::ShortcutUnknown => { span_for_offset_backward(span, b'[', b']') } LinkType::CollapsedUnknown => span_for_offset_forward(span, b'[', b']'), LinkType::Inline => span_for_offset_backward(span, b'(', b')'), // Link is pulled from elsewhere in the document. LinkType::Reference | LinkType::Collapsed | LinkType::Shortcut => { if let Some((is_used, dest_url, span)) = refdefs.get_mut(&id[..]) { *is_used = true; span_for_refdef(&CowStr::from(&dest_url[..]), span.clone()) } else { span_for_link(&dest_url, span) } } LinkType::Autolink | LinkType::Email => unreachable!(), }; if let Some(link) = preprocess_link(MarkdownLink { kind: link_type, link: dest_url.into_string(), range, }) { links.push(link); } } _ => {} } } for (_label, (is_used, dest_url, span)) in refdefs.into_iter() { if !is_used && let Some(link) = preprocess_link(MarkdownLink { kind: LinkType::Reference, range: span_for_refdef(&CowStr::from(&dest_url[..]), span), link: dest_url, }) { links.push(link); } } links } #[derive(Debug)] pub(crate) struct RustCodeBlock { /// The range in the markdown that the code block occupies. Note that this includes the fences /// for fenced code blocks. pub(crate) range: Range, /// The range in the markdown that the code within the code block occupies. pub(crate) code: Range, pub(crate) is_fenced: bool, pub(crate) lang_string: LangString, } /// Returns a range of bytes for each code block in the markdown that is tagged as `rust` or /// untagged (and assumed to be rust). pub(crate) fn rust_code_blocks(md: &str, extra_info: &ExtraInfo<'_>) -> Vec { let mut code_blocks = vec![]; if md.is_empty() { return code_blocks; } let mut p = Parser::new_ext(md, main_body_opts()).into_offset_iter(); while let Some((event, offset)) = p.next() { if let Event::Start(Tag::CodeBlock(syntax)) = event { let (lang_string, code_start, code_end, range, is_fenced) = match syntax { CodeBlockKind::Fenced(syntax) => { let syntax = syntax.as_ref(); let lang_string = if syntax.is_empty() { Default::default() } else { LangString::parse(syntax, ErrorCodes::Yes, Some(extra_info)) }; if !lang_string.rust { continue; } let (code_start, mut code_end) = match p.next() { Some((Event::Text(_), offset)) => (offset.start, offset.end), Some((_, sub_offset)) => { let code = Range { start: sub_offset.start, end: sub_offset.start }; code_blocks.push(RustCodeBlock { is_fenced: true, range: offset, code, lang_string, }); continue; } None => { let code = Range { start: offset.end, end: offset.end }; code_blocks.push(RustCodeBlock { is_fenced: true, range: offset, code, lang_string, }); continue; } }; while let Some((Event::Text(_), offset)) = p.next() { code_end = offset.end; } (lang_string, code_start, code_end, offset, true) } CodeBlockKind::Indented => { // The ending of the offset goes too far sometime so we reduce it by one in // these cases. if offset.end > offset.start && md.get(offset.end..=offset.end) == Some("\n") { ( LangString::default(), offset.start, offset.end, Range { start: offset.start, end: offset.end - 1 }, false, ) } else { (LangString::default(), offset.start, offset.end, offset, false) } } }; code_blocks.push(RustCodeBlock { is_fenced, range, code: Range { start: code_start, end: code_end }, lang_string, }); } } code_blocks } #[derive(Clone, Default, Debug)] pub struct IdMap { map: FxHashMap, existing_footnotes: Arc, } fn is_default_id(id: &str) -> bool { matches!( id, // This is the list of IDs used in JavaScript. "help" | "settings" | "not-displayed" | "alternative-display" | "search" | "crate-search" | "crate-search-div" // This is the list of IDs used in HTML generated in Rust (including the ones // used in tera template files). | "themeStyle" | "settings-menu" | "help-button" | "sidebar-button" | "main-content" | "toggle-all-docs" | "all-types" | "default-settings" | "sidebar-vars" | "copy-path" | "rustdoc-toc" | "rustdoc-modnav" // This is the list of IDs used by rustdoc sections (but still generated by // rustdoc). | "fields" | "variants" | "implementors-list" | "synthetic-implementors-list" | "foreign-impls" | "implementations" | "trait-implementations" | "synthetic-implementations" | "blanket-implementations" | "required-associated-types" | "provided-associated-types" | "provided-associated-consts" | "required-associated-consts" | "required-methods" | "provided-methods" | "dyn-compatibility" | "implementors" | "synthetic-implementors" | "implementations-list" | "trait-implementations-list" | "synthetic-implementations-list" | "blanket-implementations-list" | "deref-methods" | "layout" | "aliased-type" ) } impl IdMap { pub fn new() -> Self { IdMap { map: FxHashMap::default(), existing_footnotes: Arc::new(AtomicUsize::new(0)) } } pub(crate) fn derive + ToString>(&mut self, candidate: S) -> String { let id = match self.map.get_mut(candidate.as_ref()) { None => { let candidate = candidate.to_string(); if is_default_id(&candidate) { let id = format!("{}-{}", candidate, 1); self.map.insert(candidate, 2); id } else { candidate } } Some(a) => { let id = format!("{}-{}", candidate.as_ref(), *a); *a += 1; id } }; self.map.insert(id.clone(), 1); id } /// Method to handle `existing_footnotes` increment automatically (to prevent forgetting /// about it). pub(crate) fn handle_footnotes<'a, T, F: FnOnce(&'a mut Self, Weak) -> T>( &'a mut self, closure: F, ) -> T { let existing_footnotes = Arc::downgrade(&self.existing_footnotes); closure(self, existing_footnotes) } pub(crate) fn clear(&mut self) { self.map.clear(); self.existing_footnotes = Arc::new(AtomicUsize::new(0)); } }