//! 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::{IdMap, Markdown, ErrorCodes}; //! //! let s = "My *markdown* _text_"; //! let mut id_map = IdMap::new(); //! let md = Markdown(s, &[], &mut id_map, ErrorCodes::Yes, Edition::Edition2015, &None); //! let html = md.into_string(); //! // ... something using html //! ``` #![allow(non_camel_case_types)] use rustc_data_structures::fx::FxHashMap; use rustc_hir::def_id::DefId; use rustc_hir::HirId; use rustc_middle::ty::TyCtxt; use rustc_session::lint; use rustc_span::edition::Edition; use rustc_span::Span; use std::borrow::Cow; use std::collections::VecDeque; use std::default::Default; use std::fmt::Write; use std::ops::Range; use std::str; use crate::clean::RenderedLink; use crate::doctest; use crate::html::highlight; use crate::html::toc::TocBuilder; use pulldown_cmark::{html, BrokenLink, CodeBlockKind, CowStr, Event, Options, Parser, Tag}; #[cfg(test)] mod tests; fn opts() -> Options { Options::ENABLE_TABLES | Options::ENABLE_FOOTNOTES | Options::ENABLE_STRIKETHROUGH } /// 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 &'a str, /// A list of link replacements. pub &'a [RenderedLink], /// The current list of used header IDs. pub &'a mut IdMap, /// Whether to allow the use of explicit error codes in doctest lang strings. pub ErrorCodes, /// Default edition to use when parsing doctests (to add a `fn main`). pub Edition, pub &'a Option, ); /// A tuple struct like `Markdown` that renders the markdown with a table of contents. pub struct MarkdownWithToc<'a>( pub &'a str, pub &'a mut IdMap, pub ErrorCodes, pub Edition, pub &'a Option, ); /// A tuple struct like `Markdown` that renders the markdown escaping HTML tags. pub struct MarkdownHtml<'a>( pub &'a str, pub &'a mut IdMap, pub ErrorCodes, pub Edition, pub &'a Option, ); /// A tuple struct like `Markdown` that renders only the first paragraph. pub struct MarkdownSummaryLine<'a>(pub &'a str, pub &'a [RenderedLink]); #[derive(Copy, Clone, PartialEq, Debug)] pub enum ErrorCodes { Yes, No, } impl ErrorCodes { pub fn from(b: bool) -> Self { match b { true => ErrorCodes::Yes, false => ErrorCodes::No, } } pub 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. 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, } } fn for_code(self) -> Cow<'a, str> { match self { Line::Shown(l) => l, Line::Hidden(l) => Cow::Borrowed(l), } } } // 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. fn map_line(s: &str) -> Line<'_> { let trimmed = s.trim(); if trimmed.starts_with("##") { Line::Shown(Cow::Owned(s.replacen("##", "#", 1))) } else if trimmed.starts_with("# ") { // # text Line::Hidden(&trimmed[2..]) } 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(Clone, 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 compile_fail; let should_panic; let ignore; let edition; if let Some(Event::Start(Tag::CodeBlock(kind))) = event { let parse_result = match kind { CodeBlockKind::Fenced(ref lang) => { LangString::parse_without_check(&lang, self.check_error_codes, false) } CodeBlockKind::Indented => LangString::all_false(), }; if !parse_result.rust { return Some(Event::Start(Tag::CodeBlock(kind))); } compile_fail = parse_result.compile_fail; should_panic = parse_result.should_panic; ignore = parse_result.ignore; edition = parse_result.edition; } else { return event; } let explicit_edition = edition.is_some(); let edition = edition.unwrap_or(self.edition); let mut origtext = String::new(); for event in &mut self.inner { match event { Event::End(Tag::CodeBlock(..)) => break, Event::Text(ref s) => { origtext.push_str(s); } _ => {} } } let lines = origtext.lines().filter_map(|l| map_line(l).for_html()); let text = lines.collect::>>().join("\n"); // insert newline to clearly separate it from the // previous block so we can shorten the html output let mut s = String::from("\n"); 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 = origtext .lines() .map(|l| map_line(l).for_code()) .collect::>>() .join("\n"); let krate = krate.as_ref().map(|s| &**s); let (test, _) = doctest::make_test(&test, krate, false, &Default::default(), edition); let channel = if test.contains("#![feature(") { "&version=nightly" } else { "" }; let edition_string = format!("&edition={}", edition); // These characters don't need to be escaped in a URI. // FIXME: use a library function for percent encoding. fn dont_escape(c: u8) -> bool { (b'a' <= c && c <= b'z') || (b'A' <= c && c <= b'Z') || (b'0' <= c && c <= b'9') || c == b'-' || c == b'_' || c == b'.' || c == b'~' || c == b'!' || c == b'\'' || c == b'(' || c == b')' || c == b'*' } let mut test_escaped = String::new(); for b in test.bytes() { if dont_escape(b) { test_escaped.push(char::from(b)); } else { write!(test_escaped, "%{:02X}", b).unwrap(); } } Some(format!( r#"Run"#, url, test_escaped, channel, edition_string )) }); let tooltip = if ignore != Ignore::None { Some(("This example is not tested".to_owned(), "ignore")) } else if compile_fail { Some(("This example deliberately fails to compile".to_owned(), "compile_fail")) } else if should_panic { Some(("This example panics".to_owned(), "should_panic")) } else if explicit_edition { Some((format!("This code runs with edition {}", edition), "edition")) } else { None }; if let Some((s1, s2)) = tooltip { s.push_str(&highlight::render_with_highlighting( text, Some(&format!( "rust-example-rendered{}", if ignore != Ignore::None { " ignore" } else if compile_fail { " compile_fail" } else if should_panic { " should_panic" } else if explicit_edition { " edition " } else { "" } )), playground_button.as_deref(), Some((s1.as_str(), s2)), )); Some(Event::Html(s.into())) } else { s.push_str(&highlight::render_with_highlighting( text, Some(&format!( "rust-example-rendered{}", if ignore != Ignore::None { " ignore" } else if compile_fail { " compile_fail" } else if should_panic { " should_panic" } else if explicit_edition { " edition " } else { "" } )), playground_button.as_deref(), None, )); Some(Event::Html(s.into())) } } } /// Make headings links with anchor IDs and build up TOC. struct LinkReplacer<'a, I: Iterator>> { inner: I, links: &'a [RenderedLink], shortcut_link: Option<&'a RenderedLink>, } impl<'a, I: Iterator>> LinkReplacer<'a, I> { fn new(iter: I, links: &'a [RenderedLink]) -> Self { LinkReplacer { inner: iter, links, shortcut_link: None } } } impl<'a, I: Iterator>> Iterator for LinkReplacer<'a, I> { type Item = Event<'a>; fn next(&mut self) -> Option { use pulldown_cmark::LinkType; let mut event = self.inner.next(); // Replace intra-doc links and remove disambiguators from shortcut links (`[fn@f]`). match &mut event { // This is a shortcut link that was resolved by the broken_link_callback: `[fn@f]` // Remove any disambiguator. Some(Event::Start(Tag::Link( // [fn@f] or [fn@f][] LinkType::ShortcutUnknown | LinkType::CollapsedUnknown, dest, title, ))) => { debug!("saw start of shortcut link to {} with title {}", dest, 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); // 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); } } // Now that we're done with the shortcut link, don't replace any more text. Some(Event::End(Tag::Link( LinkType::ShortcutUnknown | LinkType::CollapsedUnknown, dest, _, ))) => { debug!("saw end of shortcut link to {}", dest); if self.links.iter().find(|&link| *link.href == **dest).is_some() { assert!(self.shortcut_link.is_some(), "saw closing link without opening tag"); self.shortcut_link = None; } } // Handle backticks in inline code blocks, but only if we're in the middle of a shortcut link. // [`fn@f`] Some(Event::Code(text)) => { trace!("saw code {}", text); if let Some(link) = self.shortcut_link { trace!("original text was {}", link.original_text); // 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: &[1..len() - 1] is to strip the backticks if **text == link.original_text[1..link.original_text.len() - 1] { debug!("replacing {} with {}", 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] Some(Event::Text(text)) => { trace!("saw text {}", text); if let Some(link) = self.shortcut_link { trace!("original text was {}", link.original_text); // NOTE: same limitations as `Event::Code` if **text == *link.original_text { debug!("replacing {} with {}", 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. Some(Event::Start(Tag::Link(_, dest, _))) => { if let Some(link) = self.links.iter().find(|&link| *link.original_text == **dest) { *dest = CowStr::Borrowed(link.href.as_ref()); } } // Anything else couldn't have been a valid Rust path, so no need to replace the text. _ => {} } // Yield the modified event event } } /// Make headings links with anchor IDs and build up TOC. struct HeadingLinks<'a, 'b, 'ids, I: Iterator>> { inner: I, toc: Option<&'b mut TocBuilder>, buf: VecDeque>, id_map: &'ids mut IdMap, } impl<'a, 'b, 'ids, I: Iterator>> HeadingLinks<'a, 'b, 'ids, I> { fn new(iter: I, toc: Option<&'b mut TocBuilder>, ids: &'ids mut IdMap) -> Self { HeadingLinks { inner: iter, toc, buf: VecDeque::new(), id_map: ids } } } impl<'a, 'b, 'ids, I: Iterator>> Iterator for HeadingLinks<'a, 'b, 'ids, I> { type Item = Event<'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 { Event::End(Tag::Heading(..)) => break, Event::Text(text) | Event::Code(text) => { id.extend(text.chars().filter_map(slugify)); } _ => {} } match event { Event::Start(Tag::Link(_, _, _)) | Event::End(Tag::Link(..)) => {} event => self.buf.push_back(event), } } let id = self.id_map.derive(id); if let Some(ref mut builder) = self.toc { let mut html_header = String::new(); html::push_html(&mut html_header, self.buf.iter().cloned()); let sec = builder.push(level as u32, html_header, id.clone()); self.buf.push_front(Event::Html(format!("{} ", sec).into())); } self.buf.push_back(Event::Html(format!("", level).into())); let start_tags = format!( "\ ", id = id, level = level ); return Some(Event::Html(start_tags.into())); } event } } /// Extracts just the first paragraph. struct SummaryLine<'a, I: Iterator>> { inner: I, started: bool, depth: u32, } impl<'a, I: Iterator>> SummaryLine<'a, I> { fn new(iter: I) -> Self { SummaryLine { inner: iter, started: false, depth: 0 } } } fn check_if_allowed_tag(t: &Tag<'_>) -> bool { match *t { Tag::Paragraph | Tag::Item | Tag::Emphasis | Tag::Strong | Tag::Link(..) | Tag::BlockQuote => true, _ => false, } } 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(Tag::CodeBlock(_)) | Event::End(Tag::CodeBlock(_)) => { return None; } Event::Start(ref c) => { self.depth += 1; check_if_allowed_tag(c) } Event::End(ref c) => { self.depth -= 1; is_start = false; check_if_allowed_tag(c) } _ => true, }; return if !is_allowed_tag { if is_start { Some(Event::Start(Tag::Paragraph)) } else { Some(Event::End(Tag::Paragraph)) } } else { Some(event) }; } None } } /// Moves all footnote definitions to the end and add back links to the /// references. struct Footnotes<'a, I: Iterator>> { inner: I, footnotes: FxHashMap>, u16)>, } impl<'a, I: Iterator>> Footnotes<'a, I> { fn new(iter: I) -> Self { Footnotes { inner: iter, footnotes: FxHashMap::default() } } fn get_entry(&mut self, key: &str) -> &mut (Vec>, u16) { let new_id = self.footnotes.keys().count() + 1; let key = key.to_owned(); self.footnotes.entry(key).or_insert((Vec::new(), new_id as u16)) } } impl<'a, I: Iterator>> Iterator for Footnotes<'a, I> { type Item = Event<'a>; fn next(&mut self) -> Option { loop { match self.inner.next() { Some(Event::FootnoteReference(ref reference)) => { let entry = self.get_entry(&reference); let reference = format!( "{0}", (*entry).1 ); return Some(Event::Html(reference.into())); } Some(Event::Start(Tag::FootnoteDefinition(def))) => { let mut content = Vec::new(); for event in &mut self.inner { if let Event::End(Tag::FootnoteDefinition(..)) = event { break; } content.push(event); } let entry = self.get_entry(&def); (*entry).0 = content; } Some(e) => return Some(e), None => { if !self.footnotes.is_empty() { let mut v: Vec<_> = self.footnotes.drain().map(|(_, x)| x).collect(); v.sort_by(|a, b| a.1.cmp(&b.1)); let mut ret = String::from("
    "); for (mut content, id) in v { write!(ret, "
  1. ", id).unwrap(); let mut is_paragraph = false; if let Some(&Event::End(Tag::Paragraph)) = content.last() { content.pop(); is_paragraph = true; } html::push_html(&mut ret, content.into_iter()); write!(ret, " ", id) .unwrap(); if is_paragraph { ret.push_str("

    "); } ret.push_str("
    2. "); } ret.push_str("
"); return Some(Event::Html(ret.into())); } else { return None; } } } } } } pub fn find_testable_code( doc: &str, tests: &mut T, error_codes: ErrorCodes, enable_per_target_ignores: bool, extra_info: Option<&ExtraInfo<'_, '_>>, ) { let mut parser = Parser::new(doc).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() { LangString::all_false() } else { LangString::parse( lang, error_codes, enable_per_target_ignores, extra_info, ) } } CodeBlockKind::Indented => LangString::all_false(), }; if !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(); let line = tests.get_line() + nb_lines + 1; tests.add_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(); if s.is_empty() { tests.register_header("", level); } else { tests.register_header(s, level); } register_header = None; } _ => {} } } } pub struct ExtraInfo<'a, 'b> { hir_id: Option, item_did: Option, sp: Span, tcx: &'a TyCtxt<'b>, } impl<'a, 'b> ExtraInfo<'a, 'b> { pub fn new(tcx: &'a TyCtxt<'b>, hir_id: HirId, sp: Span) -> ExtraInfo<'a, 'b> { ExtraInfo { hir_id: Some(hir_id), item_did: None, sp, tcx } } pub fn new_did(tcx: &'a TyCtxt<'b>, did: DefId, sp: Span) -> ExtraInfo<'a, 'b> { ExtraInfo { hir_id: None, item_did: Some(did), sp, tcx } } fn error_invalid_codeblock_attr(&self, msg: &str, help: &str) { let hir_id = match (self.hir_id, self.item_did) { (Some(h), _) => h, (None, Some(item_did)) => { match item_did.as_local() { Some(item_did) => self.tcx.hir().local_def_id_to_hir_id(item_did), None => { // If non-local, no need to check anything. return; } } } (None, None) => return, }; self.tcx.struct_span_lint_hir( lint::builtin::INVALID_CODEBLOCK_ATTRIBUTES, hir_id, self.sp, |lint| { let mut diag = lint.build(msg); diag.help(help); diag.emit(); }, ); } } #[derive(Eq, PartialEq, Clone, Debug)] pub struct LangString { original: String, pub should_panic: bool, pub no_run: bool, pub ignore: Ignore, pub rust: bool, pub test_harness: bool, pub compile_fail: bool, pub error_codes: Vec, pub allow_fail: bool, pub edition: Option, } #[derive(Eq, PartialEq, Clone, Debug)] pub enum Ignore { All, None, Some(Vec), } impl LangString { fn all_false() -> LangString { LangString { original: String::new(), should_panic: false, no_run: false, ignore: Ignore::None, rust: true, // NB This used to be `notrust = false` test_harness: false, compile_fail: false, error_codes: Vec::new(), allow_fail: false, edition: None, } } fn parse_without_check( string: &str, allow_error_code_check: ErrorCodes, enable_per_target_ignores: bool, ) -> LangString { Self::parse(string, allow_error_code_check, enable_per_target_ignores, None) } fn parse( string: &str, allow_error_code_check: ErrorCodes, enable_per_target_ignores: bool, extra: Option<&ExtraInfo<'_, '_>>, ) -> LangString { 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 data = LangString::all_false(); let mut ignores = vec![]; data.original = string.to_owned(); let tokens = string.split(|c: char| !(c == '_' || c == '-' || c.is_alphanumeric())); for token in tokens { match token.trim() { "" => {} "should_panic" => { data.should_panic = true; seen_rust_tags = !seen_other_tags; } "no_run" => { data.no_run = true; seen_rust_tags = !seen_other_tags; } "ignore" => { data.ignore = Ignore::All; seen_rust_tags = !seen_other_tags; } x if x.starts_with("ignore-") => { if enable_per_target_ignores { ignores.push(x.trim_start_matches("ignore-").to_owned()); seen_rust_tags = !seen_other_tags; } } "allow_fail" => { data.allow_fail = true; seen_rust_tags = !seen_other_tags; } "rust" => { data.rust = true; seen_rust_tags = true; } "test_harness" => { data.test_harness = true; seen_rust_tags = !seen_other_tags || seen_rust_tags; } "compile_fail" => { data.compile_fail = true; seen_rust_tags = !seen_other_tags || seen_rust_tags; data.no_run = true; } x if x.starts_with("edition") => { data.edition = x[7..].parse::().ok(); } x if allow_error_code_check && x.starts_with('E') && x.len() == 5 => { if x[1..].parse::().is_ok() { data.error_codes.push(x.to_owned()); seen_rust_tags = !seen_other_tags || seen_rust_tags; } else { seen_other_tags = true; } } x if extra.is_some() => { let s = x.to_lowercase(); match if s == "compile-fail" || s == "compile_fail" || s == "compilefail" { Some(( "compile_fail", "the code block will either not be tested if not marked as a rust one \ or won't fail if it compiles successfully", )) } else if s == "should-panic" || s == "should_panic" || s == "shouldpanic" { Some(( "should_panic", "the code block will either not be tested if not marked as a rust one \ or won't fail if it doesn't panic when running", )) } else if s == "no-run" || s == "no_run" || s == "norun" { Some(( "no_run", "the code block will either not be tested if not marked as a rust one \ or will be run (which you might not want)", )) } else if s == "allow-fail" || s == "allow_fail" || s == "allowfail" { Some(( "allow_fail", "the code block will either not be tested if not marked as a rust one \ or will be run (which you might not want)", )) } else if s == "test-harness" || s == "test_harness" || s == "testharness" { Some(( "test_harness", "the code block will either not be tested if not marked as a rust one \ or the code will be wrapped inside a main function", )) } else { None } { Some((flag, help)) => { if let Some(ref extra) = extra { extra.error_invalid_codeblock_attr( &format!("unknown attribute `{}`. Did you mean `{}`?", x, flag), help, ); } } None => {} } seen_other_tags = true; } _ => seen_other_tags = true, } } // ignore-foo overrides ignore if !ignores.is_empty() { data.ignore = Ignore::Some(ignores); } data.rust &= !seen_other_tags || seen_rust_tags; data } } impl Markdown<'_> { pub fn into_string(self) -> String { let Markdown(md, links, mut ids, codes, edition, playground) = self; // This is actually common enough to special-case if md.is_empty() { return String::new(); } let mut replacer = |broken_link: BrokenLink<'_>| { if let Some(link) = links.iter().find(|link| &*link.original_text == broken_link.reference) { Some((CowStr::Borrowed(&link.href), CowStr::Borrowed(&link.new_text))) } else { None } }; let p = Parser::new_with_broken_link_callback(md, opts(), Some(&mut replacer)); let mut s = String::with_capacity(md.len() * 3 / 2); let p = HeadingLinks::new(p, None, &mut ids); let p = LinkReplacer::new(p, links); let p = CodeBlocks::new(p, codes, edition, playground); let p = Footnotes::new(p); html::push_html(&mut s, p); s } } impl MarkdownWithToc<'_> { pub fn into_string(self) -> String { let MarkdownWithToc(md, mut ids, codes, edition, playground) = self; let p = Parser::new_ext(md, opts()); let mut s = String::with_capacity(md.len() * 3 / 2); let mut toc = TocBuilder::new(); { let p = HeadingLinks::new(p, Some(&mut toc), &mut ids); let p = CodeBlocks::new(p, codes, edition, playground); let p = Footnotes::new(p); html::push_html(&mut s, p); } format!("{}", toc.into_toc().print(), s) } } impl MarkdownHtml<'_> { pub fn into_string(self) -> String { let MarkdownHtml(md, mut ids, codes, edition, playground) = self; // This is actually common enough to special-case if md.is_empty() { return String::new(); } let p = Parser::new_ext(md, opts()); // Treat inline HTML as plain text. let p = p.map(|event| match event { Event::Html(text) => Event::Text(text), _ => event, }); let mut s = String::with_capacity(md.len() * 3 / 2); let p = HeadingLinks::new(p, None, &mut ids); let p = CodeBlocks::new(p, codes, edition, playground); let p = Footnotes::new(p); html::push_html(&mut s, p); s } } impl MarkdownSummaryLine<'_> { pub fn into_string(self) -> String { let MarkdownSummaryLine(md, links) = self; // This is actually common enough to special-case if md.is_empty() { return String::new(); } let mut replacer = |broken_link: BrokenLink<'_>| { if let Some(link) = links.iter().find(|link| &*link.original_text == broken_link.reference) { Some((CowStr::Borrowed(&link.href), CowStr::Borrowed(&link.new_text))) } else { None } }; let p = Parser::new_with_broken_link_callback( md, Options::ENABLE_STRIKETHROUGH, Some(&mut replacer), ); let mut s = String::new(); html::push_html(&mut s, LinkReplacer::new(SummaryLine::new(p), links)); s } } /// Renders the first paragraph of the provided markdown as plain text. /// /// - Headings, links, and formatting are stripped. /// - Inline code is rendered as-is, surrounded by backticks. /// - HTML and code blocks are ignored. pub fn plain_text_summary(md: &str) -> String { if md.is_empty() { return String::new(); } let mut s = String::with_capacity(md.len() * 3 / 2); for event in Parser::new_ext(md, Options::ENABLE_STRIKETHROUGH) { 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(Tag::Paragraph) => break, _ => (), } } s } pub fn markdown_links(md: &str) -> Vec<(String, Option>)> { if md.is_empty() { return vec![]; } let mut links = vec![]; let mut shortcut_links = vec![]; { let locate = |s: &str| 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; Some(start..end) } else { None } }; let mut push = |link: BrokenLink<'_>| { // FIXME: use `link.span` instead of `locate` // (doing it now includes the `[]` as well as the text) shortcut_links.push((link.reference.to_owned(), locate(link.reference))); None }; let p = Parser::new_with_broken_link_callback(md, opts(), Some(&mut push)); // There's no need to thread an IdMap through to here because // the IDs generated aren't going to be emitted anywhere. let mut ids = IdMap::new(); let iter = Footnotes::new(HeadingLinks::new(p, None, &mut ids)); for ev in iter { if let Event::Start(Tag::Link(_, dest, _)) = ev { debug!("found link: {}", dest); links.push(match dest { CowStr::Borrowed(s) => (s.to_owned(), locate(s)), s @ (CowStr::Boxed(..) | CowStr::Inlined(..)) => (s.into_string(), None), }); } } } links.append(&mut shortcut_links); links } #[derive(Debug)] crate struct RustCodeBlock { /// The range in the markdown that the code block occupies. Note that this includes the fences /// for fenced code blocks. pub range: Range, /// The range in the markdown that the code within the code block occupies. pub code: Range, pub is_fenced: bool, pub syntax: Option, } /// Returns a range of bytes for each code block in the markdown that is tagged as `rust` or /// untagged (and assumed to be rust). 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, opts()).into_offset_iter(); while let Some((event, offset)) = p.next() { if let Event::Start(Tag::CodeBlock(syntax)) = event { let (syntax, code_start, code_end, range, is_fenced) = match syntax { CodeBlockKind::Fenced(syntax) => { let syntax = syntax.as_ref(); let lang_string = if syntax.is_empty() { LangString::all_false() } else { LangString::parse(&*syntax, ErrorCodes::Yes, false, Some(extra_info)) }; if !lang_string.rust { continue; } let syntax = if syntax.is_empty() { None } else { Some(syntax.to_owned()) }; 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, syntax, }); continue; } None => { let code = Range { start: offset.end, end: offset.end }; code_blocks.push(RustCodeBlock { is_fenced: true, range: offset, code, syntax, }); continue; } }; while let Some((Event::Text(_), offset)) = p.next() { code_end = offset.end; } (syntax, 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") { ( None, offset.start, offset.end, Range { start: offset.start, end: offset.end - 1 }, false, ) } else { (None, offset.start, offset.end, offset, false) } } }; code_blocks.push(RustCodeBlock { is_fenced, range, code: Range { start: code_start, end: code_end }, syntax, }); } } code_blocks } #[derive(Clone, Default, Debug)] pub struct IdMap { map: FxHashMap, } fn init_id_map() -> FxHashMap { let mut map = FxHashMap::default(); // This is the list of IDs used by rustdoc templates. map.insert("mainThemeStyle".to_owned(), 1); map.insert("themeStyle".to_owned(), 1); map.insert("theme-picker".to_owned(), 1); map.insert("theme-choices".to_owned(), 1); map.insert("settings-menu".to_owned(), 1); map.insert("main".to_owned(), 1); map.insert("search".to_owned(), 1); map.insert("crate-search".to_owned(), 1); map.insert("render-detail".to_owned(), 1); map.insert("toggle-all-docs".to_owned(), 1); map.insert("all-types".to_owned(), 1); // This is the list of IDs used by rustdoc sections. map.insert("fields".to_owned(), 1); map.insert("variants".to_owned(), 1); map.insert("implementors-list".to_owned(), 1); map.insert("synthetic-implementors-list".to_owned(), 1); map.insert("implementations".to_owned(), 1); map.insert("trait-implementations".to_owned(), 1); map.insert("synthetic-implementations".to_owned(), 1); map.insert("blanket-implementations".to_owned(), 1); map.insert("deref-methods".to_owned(), 1); map } impl IdMap { pub fn new() -> Self { IdMap { map: init_id_map() } } pub fn populate>(&mut self, ids: I) { for id in ids { let _ = self.derive(id); } } pub fn reset(&mut self) { self.map = init_id_map(); } pub fn derive(&mut self, candidate: String) -> String { let id = match self.map.get_mut(&candidate) { None => candidate, Some(a) => { let id = format!("{}-{}", candidate, *a); *a += 1; id } }; self.map.insert(id.clone(), 1); id } }