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fuchsia / third_party / rust / 4e40a0d43640a5cf26f28cea35ec16445966a000 / . / src / librustdoc / html / markdown.rs
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// Copyright 2013-2014 The Rust Project Developers. See the COPYRIGHT
// file at the top-level directory of this distribution and at
// http://rust-lang.org/COPYRIGHT.
//
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
//! Markdown formatting for rustdoc
//!
//! This module implements markdown formatting through the pulldown-cmark
//! rust-library. This module exposes all of the
//! functionality through a unit-struct, `Markdown`, which has an implementation
//! of `fmt::Display`. Example usage:
//!
//! ```
//! #![feature(rustc_private)]
//!
//! use rustdoc::html::markdown::{RenderType, Markdown};
//!
//! let s = "My *markdown* _text_";
//! let html = format!("{}", Markdown(s, RenderType::Pulldown));
//! // ... something using html
//! ```
#![allow(non_camel_case_types)]
use libc;
use std::slice;
use std::cell::RefCell;
use std::collections::{HashMap, VecDeque};
use std::default::Default;
use std::fmt::{self, Write};
use std::str;
use syntax::feature_gate::UnstableFeatures;
use syntax::codemap::Span;
use html::render::derive_id;
use html::toc::TocBuilder;
use html::highlight;
use html::escape::Escape;
use test;
use pulldown_cmark::{html, Event, Tag, Parser};
use pulldown_cmark::{Options, OPTION_ENABLE_FOOTNOTES, OPTION_ENABLE_TABLES};
#[derive(PartialEq, Debug, Clone, Copy)]
pub enum RenderType {
Hoedown,
Pulldown,
}
/// A unit struct which has the `fmt::Display` trait implemented. When
/// formatted, this struct will emit the HTML corresponding to the rendered
/// version of the contained markdown string.
// The second parameter is whether we need a shorter version or not.
pub struct Markdown<'a>(pub &'a str, pub RenderType);
/// A unit struct like `Markdown`, that renders the markdown with a
/// table of contents.
pub struct MarkdownWithToc<'a>(pub &'a str, pub RenderType);
/// A unit struct like `Markdown`, that renders the markdown escaping HTML tags.
pub struct MarkdownHtml<'a>(pub &'a str, pub RenderType);
/// A unit struct like `Markdown`, that renders only the first paragraph.
pub struct MarkdownSummaryLine<'a>(pub &'a str);
/// 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(&'a str),
}
impl<'a> Line<'a> {
fn for_html(self) -> Option<&'a str> {
match self {
Line::Shown(l) => Some(l),
Line::Hidden(_) => None,
}
}
fn for_code(self) -> &'a str {
match self {
Line::Shown(l) |
Line::Hidden(l) => 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(&trimmed[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(s)
}
}
/// Returns a new string with all consecutive whitespace collapsed into
/// single spaces.
///
/// Any leading or trailing whitespace will be trimmed.
fn collapse_whitespace(s: &str) -> String {
s.split_whitespace().collect::<Vec<_>>().join(" ")
}
/// Convert chars from a title for an id.
///
/// "Hello, world!" -> "hello-world"
fn slugify(c: char) -> Option<char> {
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
}
}
// Information about the playground if a URL has been specified, containing an
// optional crate name and the URL.
thread_local!(pub static PLAYGROUND: RefCell<Option<(Option<String>, String)>> = {
RefCell::new(None)
});
/// Adds syntax highlighting and playground Run buttons to rust code blocks.
struct CodeBlocks<'a, I: Iterator<Item = Event<'a>>> {
inner: I,
}
impl<'a, I: Iterator<Item = Event<'a>>> CodeBlocks<'a, I> {
fn new(iter: I) -> Self {
CodeBlocks {
inner: iter,
}
}
}
impl<'a, I: Iterator<Item = Event<'a>>> Iterator for CodeBlocks<'a, I> {
type Item = Event<'a>;
fn next(&mut self) -> Option<Self::Item> {
let event = self.inner.next();
let compile_fail;
let ignore;
if let Some(Event::Start(Tag::CodeBlock(lang))) = event {
let parse_result = LangString::parse(&lang);
if !parse_result.rust {
return Some(Event::Start(Tag::CodeBlock(lang)));
}
compile_fail = parse_result.compile_fail;
ignore = parse_result.ignore;
} else {
return event;
}
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::<Vec<&str>>().join("\n");
PLAYGROUND.with(|play| {
// 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 = play.borrow().as_ref().and_then(|&(ref krate, ref url)| {
if url.is_empty() {
return None;
}
let test = origtext.lines()
.map(|l| map_line(l).for_code())
.collect::<Vec<&str>>().join("\n");
let krate = krate.as_ref().map(|s| &**s);
let test = test::make_test(&test, krate, false,
&Default::default());
let channel = if test.contains("#![feature(") {
"&amp;version=nightly"
} else {
""
};
// 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#"<a class="test-arrow" target="_blank" href="{}?code={}{}">Run</a>"#,
url, test_escaped, channel
))
});
let tooltip = if ignore {
Some(("This example is not tested", "ignore"))
} else if compile_fail {
Some(("This example deliberately fails to compile", "compile_fail"))
} else {
None
};
s.push_str(&highlight::render_with_highlighting(
&text,
Some(&format!("rust-example-rendered{}",
if ignore { " ignore" }
else if compile_fail { " compile_fail" }
else { "" })),
None,
playground_button.as_ref().map(String::as_str),
tooltip));
Some(Event::Html(s.into()))
})
}
}
/// Make headings links with anchor ids and build up TOC.
struct HeadingLinks<'a, 'b, I: Iterator<Item = Event<'a>>> {
inner: I,
toc: Option<&'b mut TocBuilder>,
buf: VecDeque<Event<'a>>,
}
impl<'a, 'b, I: Iterator<Item = Event<'a>>> HeadingLinks<'a, 'b, I> {
fn new(iter: I, toc: Option<&'b mut TocBuilder>) -> Self {
HeadingLinks {
inner: iter,
toc,
buf: VecDeque::new(),
}
}
}
impl<'a, 'b, I: Iterator<Item = Event<'a>>> Iterator for HeadingLinks<'a, 'b, I> {
type Item = Event<'a>;
fn next(&mut self) -> Option<Self::Item> {
if let Some(e) = self.buf.pop_front() {
return Some(e);
}
let event = self.inner.next();
if let Some(Event::Start(Tag::Header(level))) = event {
let mut id = String::new();
for event in &mut self.inner {
match event {
Event::End(Tag::Header(..)) => break,
Event::Text(ref text) => id.extend(text.chars().filter_map(slugify)),
_ => {},
}
self.buf.push_back(event);
}
let id = derive_id(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::InlineHtml(format!("{} ", sec).into()));
}
self.buf.push_back(Event::InlineHtml(format!("</a></h{}>", level).into()));
let start_tags = format!("<h{level} id=\"{id}\" class=\"section-header\">\
<a href=\"#{id}\">",
id = id,
level = level);
return Some(Event::InlineHtml(start_tags.into()));
}
event
}
}
/// Extracts just the first paragraph.
struct SummaryLine<'a, I: Iterator<Item = Event<'a>>> {
inner: I,
started: bool,
depth: u32,
}
impl<'a, I: Iterator<Item = Event<'a>>> SummaryLine<'a, I> {
fn new(iter: I) -> Self {
SummaryLine {
inner: iter,
started: false,
depth: 0,
}
}
}
impl<'a, I: Iterator<Item = Event<'a>>> Iterator for SummaryLine<'a, I> {
type Item = Event<'a>;
fn next(&mut self) -> Option<Self::Item> {
if self.started && self.depth == 0 {
return None;
}
if !self.started {
self.started = true;
}
let event = self.inner.next();
match event {
Some(Event::Start(..)) => self.depth += 1,
Some(Event::End(..)) => self.depth -= 1,
_ => {}
}
event
}
}
/// Moves all footnote definitions to the end and add back links to the
/// references.
struct Footnotes<'a, I: Iterator<Item = Event<'a>>> {
inner: I,
footnotes: HashMap<String, (Vec<Event<'a>>, u16)>,
}
impl<'a, I: Iterator<Item = Event<'a>>> Footnotes<'a, I> {
fn new(iter: I) -> Self {
Footnotes {
inner: iter,
footnotes: HashMap::new(),
}
}
fn get_entry(&mut self, key: &str) -> &mut (Vec<Event<'a>>, 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<Item = Event<'a>>> Iterator for Footnotes<'a, I> {
type Item = Event<'a>;
fn next(&mut self) -> Option<Self::Item> {
loop {
match self.inner.next() {
Some(Event::FootnoteReference(ref reference)) => {
let entry = self.get_entry(&reference);
let reference = format!("<sup id=\"fnref{0}\"><a href=\"#fn{0}\">{0}\
</a></sup>",
(*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("<div class=\"footnotes\"><hr><ol>");
for (mut content, id) in v {
write!(ret, "<li id=\"fn{}\">", 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,
"&nbsp;<a href=\"#fnref{}\" rev=\"footnote\">↩</a>",
id).unwrap();
if is_paragraph {
ret.push_str("</p>");
}
ret.push_str("</li>");
}
ret.push_str("</ol></div>");
return Some(Event::Html(ret.into()));
} else {
return None;
}
}
}
}
}
}
const DEF_OUNIT: libc::size_t = 64;
const HOEDOWN_EXT_NO_INTRA_EMPHASIS: libc::c_uint = 1 << 11;
const HOEDOWN_EXT_TABLES: libc::c_uint = 1 << 0;
const HOEDOWN_EXT_FENCED_CODE: libc::c_uint = 1 << 1;
const HOEDOWN_EXT_AUTOLINK: libc::c_uint = 1 << 3;
const HOEDOWN_EXT_STRIKETHROUGH: libc::c_uint = 1 << 4;
const HOEDOWN_EXT_SUPERSCRIPT: libc::c_uint = 1 << 8;
const HOEDOWN_EXT_FOOTNOTES: libc::c_uint = 1 << 2;
const HOEDOWN_HTML_ESCAPE: libc::c_uint = 1 << 1;
const HOEDOWN_EXTENSIONS: libc::c_uint =
HOEDOWN_EXT_NO_INTRA_EMPHASIS | HOEDOWN_EXT_TABLES |
HOEDOWN_EXT_FENCED_CODE | HOEDOWN_EXT_AUTOLINK |
HOEDOWN_EXT_STRIKETHROUGH | HOEDOWN_EXT_SUPERSCRIPT |
HOEDOWN_EXT_FOOTNOTES;
enum hoedown_document {}
type blockcodefn = extern "C" fn(*mut hoedown_buffer, *const hoedown_buffer,
*const hoedown_buffer, *const hoedown_renderer_data,
libc::size_t);
type blockquotefn = extern "C" fn(*mut hoedown_buffer, *const hoedown_buffer,
*const hoedown_renderer_data, libc::size_t);
type headerfn = extern "C" fn(*mut hoedown_buffer, *const hoedown_buffer,
libc::c_int, *const hoedown_renderer_data,
libc::size_t);
type blockhtmlfn = extern "C" fn(*mut hoedown_buffer, *const hoedown_buffer,
*const hoedown_renderer_data, libc::size_t);
type codespanfn = extern "C" fn(*mut hoedown_buffer, *const hoedown_buffer,
*const hoedown_renderer_data, libc::size_t) -> libc::c_int;
type linkfn = extern "C" fn (*mut hoedown_buffer, *const hoedown_buffer,
*const hoedown_buffer, *const hoedown_buffer,
*const hoedown_renderer_data, libc::size_t) -> libc::c_int;
type entityfn = extern "C" fn (*mut hoedown_buffer, *const hoedown_buffer,
*const hoedown_renderer_data, libc::size_t);
type normaltextfn = extern "C" fn(*mut hoedown_buffer, *const hoedown_buffer,
*const hoedown_renderer_data, libc::size_t);
#[repr(C)]
struct hoedown_renderer_data {
opaque: *mut libc::c_void,
}
#[repr(C)]
struct hoedown_renderer {
opaque: *mut libc::c_void,
blockcode: Option<blockcodefn>,
blockquote: Option<blockquotefn>,
header: Option<headerfn>,
other_block_level_callbacks: [libc::size_t; 11],
blockhtml: Option<blockhtmlfn>,
/* span level callbacks - NULL or return 0 prints the span verbatim */
autolink: libc::size_t, // unused
codespan: Option<codespanfn>,
other_span_level_callbacks_1: [libc::size_t; 7],
link: Option<linkfn>,
other_span_level_callbacks_2: [libc::size_t; 6],
/* low level callbacks - NULL copies input directly into the output */
entity: Option<entityfn>,
normal_text: Option<normaltextfn>,
/* header and footer */
other_callbacks: [libc::size_t; 2],
}
#[repr(C)]
struct hoedown_html_renderer_state {
opaque: *mut libc::c_void,
toc_data: html_toc_data,
flags: libc::c_uint,
link_attributes: Option<extern "C" fn(*mut hoedown_buffer,
*const hoedown_buffer,
*const hoedown_renderer_data)>,
}
#[repr(C)]
struct html_toc_data {
header_count: libc::c_int,
current_level: libc::c_int,
level_offset: libc::c_int,
nesting_level: libc::c_int,
}
#[repr(C)]
struct hoedown_buffer {
data: *const u8,
size: libc::size_t,
asize: libc::size_t,
unit: libc::size_t,
}
struct MyOpaque {
dfltblk: extern "C" fn(*mut hoedown_buffer, *const hoedown_buffer,
*const hoedown_buffer, *const hoedown_renderer_data,
libc::size_t),
toc_builder: Option<TocBuilder>,
}
extern {
fn hoedown_html_renderer_new(render_flags: libc::c_uint,
nesting_level: libc::c_int)
-> *mut hoedown_renderer;
fn hoedown_html_renderer_free(renderer: *mut hoedown_renderer);
fn hoedown_document_new(rndr: *const hoedown_renderer,
extensions: libc::c_uint,
max_nesting: libc::size_t) -> *mut hoedown_document;
fn hoedown_document_render(doc: *mut hoedown_document,
ob: *mut hoedown_buffer,
document: *const u8,
doc_size: libc::size_t);
fn hoedown_document_free(md: *mut hoedown_document);
fn hoedown_buffer_new(unit: libc::size_t) -> *mut hoedown_buffer;
fn hoedown_buffer_free(b: *mut hoedown_buffer);
fn hoedown_buffer_put(b: *mut hoedown_buffer, c: *const u8, len: libc::size_t);
}
impl hoedown_buffer {
fn as_bytes(&self) -> &[u8] {
unsafe { slice::from_raw_parts(self.data, self.size as usize) }
}
}
pub fn render(w: &mut fmt::Formatter,
s: &str,
print_toc: bool,
html_flags: libc::c_uint) -> fmt::Result {
extern fn block(ob: *mut hoedown_buffer, orig_text: *const hoedown_buffer,
lang: *const hoedown_buffer, data: *const hoedown_renderer_data,
line: libc::size_t) {
unsafe {
if orig_text.is_null() { return }
let opaque = (*data).opaque as *mut hoedown_html_renderer_state;
let my_opaque: &MyOpaque = &*((*opaque).opaque as *const MyOpaque);
let text = (*orig_text).as_bytes();
let origtext = str::from_utf8(text).unwrap();
let origtext = origtext.trim_left();
debug!("docblock: ==============\n{:?}\n=======", text);
let mut compile_fail = false;
let mut ignore = false;
let rendered = if lang.is_null() || origtext.is_empty() {
false
} else {
let rlang = (*lang).as_bytes();
let rlang = str::from_utf8(rlang).unwrap();
let parse_result = LangString::parse(rlang);
compile_fail = parse_result.compile_fail;
ignore = parse_result.ignore;
if !parse_result.rust {
(my_opaque.dfltblk)(ob, orig_text, lang,
opaque as *const hoedown_renderer_data,
line);
true
} else {
false
}
};
let lines = origtext.lines().filter_map(|l| map_line(l).for_html());
let text = lines.collect::<Vec<&str>>().join("\n");
if rendered { return }
PLAYGROUND.with(|play| {
// 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 = play.borrow().as_ref().and_then(|&(ref krate, ref url)| {
if url.is_empty() {
return None;
}
let test = origtext.lines()
.map(|l| map_line(l).for_code())
.collect::<Vec<&str>>().join("\n");
let krate = krate.as_ref().map(|s| &**s);
let test = test::make_test(&test, krate, false,
&Default::default());
let channel = if test.contains("#![feature(") {
"&amp;version=nightly"
} else {
""
};
// 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#"<a class="test-arrow" target="_blank" href="{}?code={}{}">Run</a>"#,
url, test_escaped, channel
))
});
let tooltip = if ignore {
Some(("This example is not tested", "ignore"))
} else if compile_fail {
Some(("This example deliberately fails to compile", "compile_fail"))
} else {
None
};
s.push_str(&highlight::render_with_highlighting(
&text,
Some(&format!("rust-example-rendered{}",
if ignore { " ignore" }
else if compile_fail { " compile_fail" }
else { "" })),
None,
playground_button.as_ref().map(String::as_str),
tooltip));
hoedown_buffer_put(ob, s.as_ptr(), s.len());
})
}
}
extern fn header(ob: *mut hoedown_buffer, text: *const hoedown_buffer,
level: libc::c_int, data: *const hoedown_renderer_data,
_: libc::size_t) {
// hoedown does this, we may as well too
unsafe { hoedown_buffer_put(ob, "\n".as_ptr(), 1); }
// Extract the text provided
let s = if text.is_null() {
"".to_owned()
} else {
let s = unsafe { (*text).as_bytes() };
str::from_utf8(&s).unwrap().to_owned()
};
// Discard '<em>', '<code>' tags and some escaped characters,
// transform the contents of the header into a hyphenated string
// without non-alphanumeric characters other than '-' and '_'.
//
// This is a terrible hack working around how hoedown gives us rendered
// html for text rather than the raw text.
let mut id = s.clone();
let repl_sub = vec!["<em>", "</em>", "<code>", "</code>",
"<strong>", "</strong>",
"&lt;", "&gt;", "&amp;", "&#39;", "&quot;"];
for sub in repl_sub {
id = id.replace(sub, "");
}
let id = id.chars().filter_map(|c| {
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
}
}).collect::<String>();
let opaque = unsafe { (*data).opaque as *mut hoedown_html_renderer_state };
let opaque = unsafe { &mut *((*opaque).opaque as *mut MyOpaque) };
let id = derive_id(id);
let sec = opaque.toc_builder.as_mut().map_or("".to_owned(), |builder| {
format!("{} ", builder.push(level as u32, s.clone(), id.clone()))
});
// Render the HTML
let text = format!("<h{lvl} id='{id}' class='section-header'>\
<a href='#{id}'>{sec}{}</a></h{lvl}>",
s, lvl = level, id = id, sec = sec);
unsafe { hoedown_buffer_put(ob, text.as_ptr(), text.len()); }
}
extern fn codespan(
ob: *mut hoedown_buffer,
text: *const hoedown_buffer,
_: *const hoedown_renderer_data,
_: libc::size_t
) -> libc::c_int {
let content = if text.is_null() {
"".to_owned()
} else {
let bytes = unsafe { (*text).as_bytes() };
let s = str::from_utf8(bytes).unwrap();
collapse_whitespace(s)
};
let content = format!("<code>{}</code>", Escape(&content));
unsafe {
hoedown_buffer_put(ob, content.as_ptr(), content.len());
}
// Return anything except 0, which would mean "also print the code span verbatim".
1
}
unsafe {
let ob = hoedown_buffer_new(DEF_OUNIT);
let renderer = hoedown_html_renderer_new(html_flags, 0);
let mut opaque = MyOpaque {
dfltblk: (*renderer).blockcode.unwrap(),
toc_builder: if print_toc {Some(TocBuilder::new())} else {None}
};
(*((*renderer).opaque as *mut hoedown_html_renderer_state)).opaque
= &mut opaque as *mut _ as *mut libc::c_void;
(*renderer).blockcode = Some(block);
(*renderer).header = Some(header);
(*renderer).codespan = Some(codespan);
let document = hoedown_document_new(renderer, HOEDOWN_EXTENSIONS, 16);
hoedown_document_render(document, ob, s.as_ptr(),
s.len() as libc::size_t);
hoedown_document_free(document);
hoedown_html_renderer_free(renderer);
let mut ret = opaque.toc_builder.map_or(Ok(()), |builder| {
write!(w, "<nav id=\"TOC\">{}</nav>", builder.into_toc())
});
if ret.is_ok() {
let buf = (*ob).as_bytes();
ret = w.write_str(str::from_utf8(buf).unwrap());
}
hoedown_buffer_free(ob);
ret
}
}
pub fn old_find_testable_code(doc: &str, tests: &mut ::test::Collector, position: Span) {
extern fn block(_ob: *mut hoedown_buffer,
text: *const hoedown_buffer,
lang: *const hoedown_buffer,
data: *const hoedown_renderer_data,
line: libc::size_t) {
unsafe {
if text.is_null() { return }
let block_info = if lang.is_null() {
LangString::all_false()
} else {
let lang = (*lang).as_bytes();
let s = str::from_utf8(lang).unwrap();
LangString::parse(s)
};
if !block_info.rust { return }
let text = (*text).as_bytes();
let opaque = (*data).opaque as *mut hoedown_html_renderer_state;
let tests = &mut *((*opaque).opaque as *mut ::test::Collector);
let text = str::from_utf8(text).unwrap();
let lines = text.lines().map(|l| map_line(l).for_code());
let text = lines.collect::<Vec<&str>>().join("\n");
let filename = tests.get_filename();
if tests.render_type == RenderType::Hoedown {
let line = tests.get_line() + line;
tests.add_test(text.to_owned(),
block_info.should_panic, block_info.no_run,
block_info.ignore, block_info.test_harness,
block_info.compile_fail, block_info.error_codes,
line, filename, block_info.allow_fail);
} else {
tests.add_old_test(text, filename);
}
}
}
extern fn header(_ob: *mut hoedown_buffer,
text: *const hoedown_buffer,
level: libc::c_int, data: *const hoedown_renderer_data,
_: libc::size_t) {
unsafe {
let opaque = (*data).opaque as *mut hoedown_html_renderer_state;
let tests = &mut *((*opaque).opaque as *mut ::test::Collector);
if text.is_null() {
tests.register_header("", level as u32);
} else {
let text = (*text).as_bytes();
let text = str::from_utf8(text).unwrap();
tests.register_header(text, level as u32);
}
}
}
tests.set_position(position);
unsafe {
let ob = hoedown_buffer_new(DEF_OUNIT);
let renderer = hoedown_html_renderer_new(0, 0);
(*renderer).blockcode = Some(block);
(*renderer).header = Some(header);
(*((*renderer).opaque as *mut hoedown_html_renderer_state)).opaque
= tests as *mut _ as *mut libc::c_void;
let document = hoedown_document_new(renderer, HOEDOWN_EXTENSIONS, 16);
hoedown_document_render(document, ob, doc.as_ptr(),
doc.len() as libc::size_t);
hoedown_document_free(document);
hoedown_html_renderer_free(renderer);
hoedown_buffer_free(ob);
}
}
pub fn find_testable_code(doc: &str, tests: &mut ::test::Collector, position: Span) {
tests.set_position(position);
let mut parser = Parser::new(doc);
let mut prev_offset = 0;
let mut nb_lines = 0;
let mut register_header = None;
'main: while let Some(event) = parser.next() {
match event {
Event::Start(Tag::CodeBlock(s)) => {
let block_info = if s.is_empty() {
LangString::all_false()
} else {
LangString::parse(&*s)
};
if !block_info.rust {
continue
}
let mut test_s = String::new();
let mut offset = None;
loop {
let event = parser.next();
if let Some(event) = event {
match event {
Event::End(Tag::CodeBlock(_)) => break,
Event::Text(ref s) => {
test_s.push_str(s);
if offset.is_none() {
offset = Some(parser.get_offset());
}
}
_ => {}
}
} else {
break 'main;
}
}
let offset = offset.unwrap_or(0);
let lines = test_s.lines().map(|l| map_line(l).for_code());
let text = lines.collect::<Vec<&str>>().join("\n");
nb_lines += doc[prev_offset..offset].lines().count();
let line = tests.get_line() + (nb_lines - 1);
let filename = tests.get_filename();
tests.add_test(text.to_owned(),
block_info.should_panic, block_info.no_run,
block_info.ignore, block_info.test_harness,
block_info.compile_fail, block_info.error_codes,
line, filename, block_info.allow_fail);
prev_offset = offset;
}
Event::Start(Tag::Header(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;
}
_ => {}
}
}
}
#[derive(Eq, PartialEq, Clone, Debug)]
struct LangString {
original: String,
should_panic: bool,
no_run: bool,
ignore: bool,
rust: bool,
test_harness: bool,
compile_fail: bool,
error_codes: Vec<String>,
allow_fail: bool,
}
impl LangString {
fn all_false() -> LangString {
LangString {
original: String::new(),
should_panic: false,
no_run: false,
ignore: false,
rust: true, // NB This used to be `notrust = false`
test_harness: false,
compile_fail: false,
error_codes: Vec::new(),
allow_fail: false,
}
}
fn parse(string: &str) -> LangString {
let mut seen_rust_tags = false;
let mut seen_other_tags = false;
let mut data = LangString::all_false();
let mut allow_error_code_check = false;
if UnstableFeatures::from_environment().is_nightly_build() {
allow_error_code_check = true;
}
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 == false;
}
"no_run" => { data.no_run = true; seen_rust_tags = !seen_other_tags; }
"ignore" => { data.ignore = true; 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 allow_error_code_check && x.starts_with("E") && x.len() == 5 => {
if let Ok(_) = x[1..].parse::<u32>() {
data.error_codes.push(x.to_owned());
seen_rust_tags = !seen_other_tags || seen_rust_tags;
} else {
seen_other_tags = true;
}
}
_ => { seen_other_tags = true }
}
}
data.rust &= !seen_other_tags || seen_rust_tags;
data
}
}
impl<'a> fmt::Display for Markdown<'a> {
fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result {
let Markdown(md, render_type) = *self;
// This is actually common enough to special-case
if md.is_empty() { return Ok(()) }
if render_type == RenderType::Hoedown {
render(fmt, md, false, 0)
} else {
let mut opts = Options::empty();
opts.insert(OPTION_ENABLE_TABLES);
opts.insert(OPTION_ENABLE_FOOTNOTES);
let p = Parser::new_ext(md, opts);
let mut s = String::with_capacity(md.len() * 3 / 2);
html::push_html(&mut s,
Footnotes::new(CodeBlocks::new(HeadingLinks::new(p, None))));
fmt.write_str(&s)
}
}
}
impl<'a> fmt::Display for MarkdownWithToc<'a> {
fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result {
let MarkdownWithToc(md, render_type) = *self;
if render_type == RenderType::Hoedown {
render(fmt, md, true, 0)
} else {
let mut opts = Options::empty();
opts.insert(OPTION_ENABLE_TABLES);
opts.insert(OPTION_ENABLE_FOOTNOTES);
let p = Parser::new_ext(md, opts);
let mut s = String::with_capacity(md.len() * 3 / 2);
let mut toc = TocBuilder::new();
html::push_html(&mut s,
Footnotes::new(CodeBlocks::new(HeadingLinks::new(p, Some(&mut toc)))));
write!(fmt, "<nav id=\"TOC\">{}</nav>", toc.into_toc())?;
fmt.write_str(&s)
}
}
}
impl<'a> fmt::Display for MarkdownHtml<'a> {
fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result {
let MarkdownHtml(md, render_type) = *self;
// This is actually common enough to special-case
if md.is_empty() { return Ok(()) }
if render_type == RenderType::Hoedown {
render(fmt, md, false, HOEDOWN_HTML_ESCAPE)
} else {
let mut opts = Options::empty();
opts.insert(OPTION_ENABLE_TABLES);
opts.insert(OPTION_ENABLE_FOOTNOTES);
let p = Parser::new_ext(md, opts);
// Treat inline HTML as plain text.
let p = p.map(|event| match event {
Event::Html(text) | Event::InlineHtml(text) => Event::Text(text),
_ => event
});
let mut s = String::with_capacity(md.len() * 3 / 2);
html::push_html(&mut s,
Footnotes::new(CodeBlocks::new(HeadingLinks::new(p, None))));
fmt.write_str(&s)
}
}
}
impl<'a> fmt::Display for MarkdownSummaryLine<'a> {
fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result {
let MarkdownSummaryLine(md) = *self;
// This is actually common enough to special-case
if md.is_empty() { return Ok(()) }
let p = Parser::new(md);
let mut s = String::new();
html::push_html(&mut s, SummaryLine::new(p));
fmt.write_str(&s)
}
}
pub fn plain_summary_line(md: &str) -> String {
struct ParserWrapper<'a> {
inner: Parser<'a>,
is_in: isize,
is_first: bool,
}
impl<'a> Iterator for ParserWrapper<'a> {
type Item = String;
fn next(&mut self) -> Option<String> {
let next_event = self.inner.next();
if next_event.is_none() {
return None
}
let next_event = next_event.unwrap();
let (ret, is_in) = match next_event {
Event::Start(Tag::Paragraph) => (None, 1),
Event::Start(Tag::Code) => (Some("`".to_owned()), 1),
Event::End(Tag::Code) => (Some("`".to_owned()), -1),
Event::Start(Tag::Header(_)) => (None, 1),
Event::Text(ref s) if self.is_in > 0 => (Some(s.as_ref().to_owned()), 0),
Event::End(Tag::Paragraph) | Event::End(Tag::Header(_)) => (None, -1),
_ => (None, 0),
};
if is_in > 0 || (is_in < 0 && self.is_in > 0) {
self.is_in += is_in;
}
if ret.is_some() {
self.is_first = false;
ret
} else {
Some(String::new())
}
}
}
let mut s = String::with_capacity(md.len() * 3 / 2);
let mut p = ParserWrapper {
inner: Parser::new(md),
is_in: 0,
is_first: true,
};
while let Some(t) = p.next() {
if !t.is_empty() {
s.push_str(&t);
}
}
s
}
#[cfg(test)]
mod tests {
use super::{LangString, Markdown, MarkdownHtml};
use super::plain_summary_line;
use super::RenderType;
use html::render::reset_ids;
#[test]
fn test_lang_string_parse() {
fn t(s: &str,
should_panic: bool, no_run: bool, ignore: bool, rust: bool, test_harness: bool,
compile_fail: bool, allow_fail: bool, error_codes: Vec<String>) {
assert_eq!(LangString::parse(s), LangString {
should_panic,
no_run,
ignore,
rust,
test_harness,
compile_fail,
error_codes,
original: s.to_owned(),
allow_fail,
})
}
fn v() -> Vec<String> {
Vec::new()
}
// marker | should_panic| no_run| ignore| rust | test_harness| compile_fail
// | allow_fail | error_codes
t("", false, false, false, true, false, false, false, v());
t("rust", false, false, false, true, false, false, false, v());
t("sh", false, false, false, false, false, false, false, v());
t("ignore", false, false, true, true, false, false, false, v());
t("should_panic", true, false, false, true, false, false, false, v());
t("no_run", false, true, false, true, false, false, false, v());
t("test_harness", false, false, false, true, true, false, false, v());
t("compile_fail", false, true, false, true, false, true, false, v());
t("allow_fail", false, false, false, true, false, false, true, v());
t("{.no_run .example}", false, true, false, true, false, false, false, v());
t("{.sh .should_panic}", true, false, false, false, false, false, false, v());
t("{.example .rust}", false, false, false, true, false, false, false, v());
t("{.test_harness .rust}", false, false, false, true, true, false, false, v());
t("text, no_run", false, true, false, false, false, false, false, v());
t("text,no_run", false, true, false, false, false, false, false, v());
}
#[test]
fn issue_17736() {
let markdown = "# title";
format!("{}", Markdown(markdown, RenderType::Pulldown));
reset_ids(true);
}
#[test]
fn test_header() {
fn t(input: &str, expect: &str) {
let output = format!("{}", Markdown(input, RenderType::Pulldown));
assert_eq!(output, expect, "original: {}", input);
reset_ids(true);
}
t("# Foo bar", "<h1 id=\"foo-bar\" class=\"section-header\">\
<a href=\"#foo-bar\">Foo bar</a></h1>");
t("## Foo-bar_baz qux", "<h2 id=\"foo-bar_baz-qux\" class=\"section-\
header\"><a href=\"#foo-bar_baz-qux\">Foo-bar_baz qux</a></h2>");
t("### **Foo** *bar* baz!?!& -_qux_-%",
"<h3 id=\"foo-bar-baz--qux-\" class=\"section-header\">\
<a href=\"#foo-bar-baz--qux-\"><strong>Foo</strong> \
<em>bar</em> baz!?!&amp; -<em>qux</em>-%</a></h3>");
t("#### **Foo?** & \\*bar?!* _`baz`_ ❤ #qux",
"<h4 id=\"foo--bar--baz--qux\" class=\"section-header\">\
<a href=\"#foo--bar--baz--qux\"><strong>Foo?</strong> &amp; *bar?!* \
<em><code>baz</code></em> #qux</a></h4>");
}
#[test]
fn test_header_ids_multiple_blocks() {
fn t(input: &str, expect: &str) {
let output = format!("{}", Markdown(input, RenderType::Pulldown));
assert_eq!(output, expect, "original: {}", input);
}
let test = || {
t("# Example", "<h1 id=\"example\" class=\"section-header\">\
<a href=\"#example\">Example</a></h1>");
t("# Panics", "<h1 id=\"panics\" class=\"section-header\">\
<a href=\"#panics\">Panics</a></h1>");
t("# Example", "<h1 id=\"example-1\" class=\"section-header\">\
<a href=\"#example-1\">Example</a></h1>");
t("# Main", "<h1 id=\"main-1\" class=\"section-header\">\
<a href=\"#main-1\">Main</a></h1>");
t("# Example", "<h1 id=\"example-2\" class=\"section-header\">\
<a href=\"#example-2\">Example</a></h1>");
t("# Panics", "<h1 id=\"panics-1\" class=\"section-header\">\
<a href=\"#panics-1\">Panics</a></h1>");
};
test();
reset_ids(true);
test();
}
#[test]
fn test_plain_summary_line() {
fn t(input: &str, expect: &str) {
let output = plain_summary_line(input);
assert_eq!(output, expect, "original: {}", input);
}
t("hello [Rust](https://www.rust-lang.org) :)", "hello Rust :)");
t("hello [Rust](https://www.rust-lang.org \"Rust\") :)", "hello Rust :)");
t("code `let x = i32;` ...", "code `let x = i32;` ...");
t("type `Type<'static>` ...", "type `Type<'static>` ...");
t("# top header", "top header");
t("## header", "header");
}
#[test]
fn test_markdown_html_escape() {
fn t(input: &str, expect: &str) {
let output = format!("{}", MarkdownHtml(input, RenderType::Pulldown));
assert_eq!(output, expect, "original: {}", input);
}
t("`Struct<'a, T>`", "<p><code>Struct&lt;'a, T&gt;</code></p>\n");
t("Struct<'a, T>", "<p>Struct&lt;'a, T&gt;</p>\n");
t("Struct<br>", "<p>Struct&lt;br&gt;</p>\n");
}
}