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|
use std::ffi::OsStr;
use std::fs::{self, File};
use std::io::prelude::*;
use std::io::{self, BufReader};
use std::path::{Component, Path, PathBuf};
use std::rc::Rc;
use std::sync::LazyLock as Lazy;
use itertools::Itertools;
use rustc_data_structures::flock;
use rustc_data_structures::fx::{FxHashMap, FxHashSet};
use serde::ser::SerializeSeq;
use serde::{Serialize, Serializer};
use super::{collect_paths_for_type, ensure_trailing_slash, Context, BASIC_KEYWORDS};
use crate::clean::Crate;
use crate::config::{EmitType, RenderOptions};
use crate::docfs::PathError;
use crate::error::Error;
use crate::html::{layout, static_files};
use crate::{try_err, try_none};
static FILES_UNVERSIONED: Lazy<FxHashMap<&str, &[u8]>> = Lazy::new(|| {
map! {
"FiraSans-Regular.woff2" => static_files::fira_sans::REGULAR,
"FiraSans-Medium.woff2" => static_files::fira_sans::MEDIUM,
"FiraSans-LICENSE.txt" => static_files::fira_sans::LICENSE,
"SourceSerif4-Regular.ttf.woff2" => static_files::source_serif_4::REGULAR,
"SourceSerif4-Bold.ttf.woff2" => static_files::source_serif_4::BOLD,
"SourceSerif4-It.ttf.woff2" => static_files::source_serif_4::ITALIC,
"SourceSerif4-LICENSE.md" => static_files::source_serif_4::LICENSE,
"SourceCodePro-Regular.ttf.woff2" => static_files::source_code_pro::REGULAR,
"SourceCodePro-Semibold.ttf.woff2" => static_files::source_code_pro::SEMIBOLD,
"SourceCodePro-It.ttf.woff2" => static_files::source_code_pro::ITALIC,
"SourceCodePro-LICENSE.txt" => static_files::source_code_pro::LICENSE,
"NanumBarunGothic.ttf.woff2" => static_files::nanum_barun_gothic::REGULAR,
"NanumBarunGothic-LICENSE.txt" => static_files::nanum_barun_gothic::LICENSE,
"LICENSE-MIT.txt" => static_files::LICENSE_MIT,
"LICENSE-APACHE.txt" => static_files::LICENSE_APACHE,
"COPYRIGHT.txt" => static_files::COPYRIGHT,
}
});
enum SharedResource<'a> {
/// This file will never change, no matter what toolchain is used to build it.
///
/// It does not have a resource suffix.
Unversioned { name: &'static str },
/// This file may change depending on the toolchain.
///
/// It has a resource suffix.
ToolchainSpecific { basename: &'static str },
/// This file may change for any crate within a build, or based on the CLI arguments.
///
/// This differs from normal invocation-specific files because it has a resource suffix.
InvocationSpecific { basename: &'a str },
}
impl SharedResource<'_> {
fn extension(&self) -> Option<&OsStr> {
use SharedResource::*;
match self {
Unversioned { name }
| ToolchainSpecific { basename: name }
| InvocationSpecific { basename: name } => Path::new(name).extension(),
}
}
fn path(&self, cx: &Context<'_>) -> PathBuf {
match self {
SharedResource::Unversioned { name } => cx.dst.join(name),
SharedResource::ToolchainSpecific { basename } => cx.suffix_path(basename),
SharedResource::InvocationSpecific { basename } => cx.suffix_path(basename),
}
}
fn should_emit(&self, emit: &[EmitType]) -> bool {
if emit.is_empty() {
return true;
}
let kind = match self {
SharedResource::Unversioned { .. } => EmitType::Unversioned,
SharedResource::ToolchainSpecific { .. } => EmitType::Toolchain,
SharedResource::InvocationSpecific { .. } => EmitType::InvocationSpecific,
};
emit.contains(&kind)
}
}
impl Context<'_> {
fn suffix_path(&self, filename: &str) -> PathBuf {
// We use splitn vs Path::extension here because we might get a filename
// like `style.min.css` and we want to process that into
// `style-suffix.min.css`. Path::extension would just return `css`
// which would result in `style.min-suffix.css` which isn't what we
// want.
let (base, ext) = filename.split_once('.').unwrap();
let filename = format!("{}{}.{}", base, self.shared.resource_suffix, ext);
self.dst.join(&filename)
}
fn write_shared(
&self,
resource: SharedResource<'_>,
contents: impl 'static + Send + AsRef<[u8]>,
emit: &[EmitType],
) -> Result<(), Error> {
if resource.should_emit(emit) {
self.shared.fs.write(resource.path(self), contents)
} else {
Ok(())
}
}
fn write_minify(
&self,
resource: SharedResource<'_>,
contents: impl 'static + Send + AsRef<str> + AsRef<[u8]>,
minify: bool,
emit: &[EmitType],
) -> Result<(), Error> {
if minify {
let contents = contents.as_ref();
let contents = if resource.extension() == Some(OsStr::new("css")) {
minifier::css::minify(contents)
.map_err(|e| {
Error::new(format!("failed to minify CSS file: {}", e), resource.path(self))
})?
.to_string()
} else {
minifier::js::minify(contents).to_string()
};
self.write_shared(resource, contents, emit)
} else {
self.write_shared(resource, contents, emit)
}
}
}
pub(super) fn write_shared(
cx: &mut Context<'_>,
krate: &Crate,
search_index: String,
options: &RenderOptions,
) -> Result<(), Error> {
// Write out the shared files. Note that these are shared among all rustdoc
// docs placed in the output directory, so this needs to be a synchronized
// operation with respect to all other rustdocs running around.
let lock_file = cx.dst.join(".lock");
let _lock = try_err!(flock::Lock::new(&lock_file, true, true, true), &lock_file);
// Minified resources are usually toolchain resources. If they're not, they should use `cx.write_minify` directly.
fn write_minify(
basename: &'static str,
contents: impl 'static + Send + AsRef<str> + AsRef<[u8]>,
cx: &Context<'_>,
options: &RenderOptions,
) -> Result<(), Error> {
cx.write_minify(
SharedResource::ToolchainSpecific { basename },
contents,
options.enable_minification,
&options.emit,
)
}
// Toolchain resources should never be dynamic.
let write_toolchain = |p: &'static _, c: &'static _| {
cx.write_shared(SharedResource::ToolchainSpecific { basename: p }, c, &options.emit)
};
// Crate resources should always be dynamic.
let write_crate = |p: &_, make_content: &dyn Fn() -> Result<Vec<u8>, Error>| {
let content = make_content()?;
cx.write_shared(SharedResource::InvocationSpecific { basename: p }, content, &options.emit)
};
// Given "foo.svg", return e.g. "url(\"foo1.58.0.svg\")"
fn ver_url(cx: &Context<'_>, basename: &'static str) -> String {
format!(
"url(\"{}\")",
SharedResource::ToolchainSpecific { basename }
.path(cx)
.file_name()
.unwrap()
.to_str()
.unwrap()
)
}
// We use the AUTOREPLACE mechanism to inject into our static JS and CSS certain
// values that are only known at doc build time. Since this mechanism is somewhat
// surprising when reading the code, please limit it to rustdoc.css.
write_minify(
"rustdoc.css",
static_files::RUSTDOC_CSS
.replace(
"/* AUTOREPLACE: */url(\"toggle-minus.svg\")",
&ver_url(cx, "toggle-minus.svg"),
)
.replace("/* AUTOREPLACE: */url(\"toggle-plus.svg\")", &ver_url(cx, "toggle-plus.svg"))
.replace("/* AUTOREPLACE: */url(\"down-arrow.svg\")", &ver_url(cx, "down-arrow.svg")),
cx,
options,
)?;
// Add all the static files. These may already exist, but we just
// overwrite them anyway to make sure that they're fresh and up-to-date.
write_minify("settings.css", static_files::SETTINGS_CSS, cx, options)?;
write_minify("noscript.css", static_files::NOSCRIPT_CSS, cx, options)?;
// To avoid "light.css" to be overwritten, we'll first run over the received themes and only
// then we'll run over the "official" styles.
let mut themes: FxHashSet<String> = FxHashSet::default();
for entry in &cx.shared.style_files {
let theme = entry.basename()?;
let extension =
try_none!(try_none!(entry.path.extension(), &entry.path).to_str(), &entry.path);
// Handle the official themes
match theme.as_str() {
"light" => write_minify("light.css", static_files::themes::LIGHT, cx, options)?,
"dark" => write_minify("dark.css", static_files::themes::DARK, cx, options)?,
"ayu" => write_minify("ayu.css", static_files::themes::AYU, cx, options)?,
_ => {
// Handle added third-party themes
let filename = format!("{}.{}", theme, extension);
write_crate(&filename, &|| Ok(try_err!(fs::read(&entry.path), &entry.path)))?;
}
};
themes.insert(theme.to_owned());
}
if (*cx.shared).layout.logo.is_empty() {
write_toolchain("rust-logo.svg", static_files::RUST_LOGO_SVG)?;
}
if (*cx.shared).layout.favicon.is_empty() {
write_toolchain("favicon.svg", static_files::RUST_FAVICON_SVG)?;
write_toolchain("favicon-16x16.png", static_files::RUST_FAVICON_PNG_16)?;
write_toolchain("favicon-32x32.png", static_files::RUST_FAVICON_PNG_32)?;
}
write_toolchain("wheel.svg", static_files::WHEEL_SVG)?;
write_toolchain("clipboard.svg", static_files::CLIPBOARD_SVG)?;
write_toolchain("down-arrow.svg", static_files::DOWN_ARROW_SVG)?;
write_toolchain("toggle-minus.svg", static_files::TOGGLE_MINUS_PNG)?;
write_toolchain("toggle-plus.svg", static_files::TOGGLE_PLUS_PNG)?;
let mut themes: Vec<&String> = themes.iter().collect();
themes.sort();
write_minify("main.js", static_files::MAIN_JS, cx, options)?;
write_minify("search.js", static_files::SEARCH_JS, cx, options)?;
write_minify("settings.js", static_files::SETTINGS_JS, cx, options)?;
if cx.include_sources {
write_minify("source-script.js", static_files::sidebar::SOURCE_SCRIPT, cx, options)?;
}
write_minify("storage.js", static_files::STORAGE_JS, cx, options)?;
if cx.shared.layout.scrape_examples_extension {
cx.write_minify(
SharedResource::InvocationSpecific { basename: "scrape-examples.js" },
static_files::SCRAPE_EXAMPLES_JS,
options.enable_minification,
&options.emit,
)?;
}
if let Some(ref css) = cx.shared.layout.css_file_extension {
let buffer = try_err!(fs::read_to_string(css), css);
// This varies based on the invocation, so it can't go through the write_minify wrapper.
cx.write_minify(
SharedResource::InvocationSpecific { basename: "theme.css" },
buffer,
options.enable_minification,
&options.emit,
)?;
}
write_minify("normalize.css", static_files::NORMALIZE_CSS, cx, options)?;
for (name, contents) in &*FILES_UNVERSIONED {
cx.write_shared(SharedResource::Unversioned { name }, contents, &options.emit)?;
}
/// Read a file and return all lines that match the `"{crate}":{data},` format,
/// and return a tuple `(Vec<DataString>, Vec<CrateNameString>)`.
///
/// This forms the payload of files that look like this:
///
/// ```javascript
/// var data = {
/// "{crate1}":{data},
/// "{crate2}":{data}
/// };
/// use_data(data);
/// ```
///
/// The file needs to be formatted so that *only crate data lines start with `"`*.
fn collect(path: &Path, krate: &str) -> io::Result<(Vec<String>, Vec<String>)> {
let mut ret = Vec::new();
let mut krates = Vec::new();
if path.exists() {
let prefix = format!("\"{}\"", krate);
for line in BufReader::new(File::open(path)?).lines() {
let line = line?;
if !line.starts_with('"') {
continue;
}
if line.starts_with(&prefix) {
continue;
}
if line.ends_with(',') {
ret.push(line[..line.len() - 1].to_string());
} else {
// No comma (it's the case for the last added crate line)
ret.push(line.to_string());
}
krates.push(
line.split('"')
.find(|s| !s.is_empty())
.map(|s| s.to_owned())
.unwrap_or_else(String::new),
);
}
}
Ok((ret, krates))
}
/// Read a file and return all lines that match the <code>"{crate}":{data},\</code> format,
/// and return a tuple `(Vec<DataString>, Vec<CrateNameString>)`.
///
/// This forms the payload of files that look like this:
///
/// ```javascript
/// var data = JSON.parse('{\
/// "{crate1}":{data},\
/// "{crate2}":{data}\
/// }');
/// use_data(data);
/// ```
///
/// The file needs to be formatted so that *only crate data lines start with `"`*.
fn collect_json(path: &Path, krate: &str) -> io::Result<(Vec<String>, Vec<String>)> {
let mut ret = Vec::new();
let mut krates = Vec::new();
if path.exists() {
let prefix = format!("\"{}\"", krate);
for line in BufReader::new(File::open(path)?).lines() {
let line = line?;
if !line.starts_with('"') {
continue;
}
if line.starts_with(&prefix) {
continue;
}
if line.ends_with(",\\") {
ret.push(line[..line.len() - 2].to_string());
} else {
// Ends with "\\" (it's the case for the last added crate line)
ret.push(line[..line.len() - 1].to_string());
}
krates.push(
line.split('"')
.find(|s| !s.is_empty())
.map(|s| s.to_owned())
.unwrap_or_else(String::new),
);
}
}
Ok((ret, krates))
}
use std::ffi::OsString;
#[derive(Debug)]
struct Hierarchy {
elem: OsString,
children: FxHashMap<OsString, Hierarchy>,
elems: FxHashSet<OsString>,
}
impl Hierarchy {
fn new(elem: OsString) -> Hierarchy {
Hierarchy { elem, children: FxHashMap::default(), elems: FxHashSet::default() }
}
fn to_json_string(&self) -> String {
let mut subs: Vec<&Hierarchy> = self.children.values().collect();
subs.sort_unstable_by(|a, b| a.elem.cmp(&b.elem));
let mut files = self
.elems
.iter()
.map(|s| format!("\"{}\"", s.to_str().expect("invalid osstring conversion")))
.collect::<Vec<_>>();
files.sort_unstable();
let subs = subs.iter().map(|s| s.to_json_string()).collect::<Vec<_>>().join(",");
let dirs = if subs.is_empty() && files.is_empty() {
String::new()
} else {
format!(",[{}]", subs)
};
let files = files.join(",");
let files = if files.is_empty() { String::new() } else { format!(",[{}]", files) };
format!(
"[\"{name}\"{dirs}{files}]",
name = self.elem.to_str().expect("invalid osstring conversion"),
dirs = dirs,
files = files
)
}
}
if cx.include_sources {
let mut hierarchy = Hierarchy::new(OsString::new());
for source in cx
.shared
.local_sources
.iter()
.filter_map(|p| p.0.strip_prefix(&cx.shared.src_root).ok())
{
let mut h = &mut hierarchy;
let mut elems = source
.components()
.filter_map(|s| match s {
Component::Normal(s) => Some(s.to_owned()),
_ => None,
})
.peekable();
loop {
let cur_elem = elems.next().expect("empty file path");
if elems.peek().is_none() {
h.elems.insert(cur_elem);
break;
} else {
let e = cur_elem.clone();
h = h.children.entry(cur_elem.clone()).or_insert_with(|| Hierarchy::new(e));
}
}
}
let dst = cx.dst.join(&format!("source-files{}.js", cx.shared.resource_suffix));
let make_sources = || {
let (mut all_sources, _krates) =
try_err!(collect_json(&dst, krate.name(cx.tcx()).as_str()), &dst);
all_sources.push(format!(
r#""{}":{}"#,
&krate.name(cx.tcx()),
hierarchy
.to_json_string()
// All these `replace` calls are because we have to go through JS string for JSON content.
.replace('\\', r"\\")
.replace('\'', r"\'")
// We need to escape double quotes for the JSON.
.replace("\\\"", "\\\\\"")
));
all_sources.sort();
let mut v = String::from("var sourcesIndex = JSON.parse('{\\\n");
v.push_str(&all_sources.join(",\\\n"));
v.push_str("\\\n}');\ncreateSourceSidebar();\n");
Ok(v.into_bytes())
};
write_crate("source-files.js", &make_sources)?;
}
// Update the search index and crate list.
let dst = cx.dst.join(&format!("search-index{}.js", cx.shared.resource_suffix));
let (mut all_indexes, mut krates) =
try_err!(collect_json(&dst, krate.name(cx.tcx()).as_str()), &dst);
all_indexes.push(search_index);
krates.push(krate.name(cx.tcx()).to_string());
krates.sort();
// Sort the indexes by crate so the file will be generated identically even
// with rustdoc running in parallel.
all_indexes.sort();
write_crate("search-index.js", &|| {
let mut v = String::from("var searchIndex = JSON.parse('{\\\n");
v.push_str(&all_indexes.join(",\\\n"));
v.push_str(
r#"\
}');
if (typeof window !== 'undefined' && window.initSearch) {window.initSearch(searchIndex)};
if (typeof exports !== 'undefined') {exports.searchIndex = searchIndex};
"#,
);
Ok(v.into_bytes())
})?;
write_crate("crates.js", &|| {
let krates = krates.iter().map(|k| format!("\"{}\"", k)).join(",");
Ok(format!("window.ALL_CRATES = [{}];", krates).into_bytes())
})?;
if options.enable_index_page {
if let Some(index_page) = options.index_page.clone() {
let mut md_opts = options.clone();
md_opts.output = cx.dst.clone();
md_opts.external_html = (*cx.shared).layout.external_html.clone();
crate::markdown::render(&index_page, md_opts, cx.shared.edition())
.map_err(|e| Error::new(e, &index_page))?;
} else {
let shared = Rc::clone(&cx.shared);
let dst = cx.dst.join("index.html");
let page = layout::Page {
title: "Index of crates",
css_class: "mod",
root_path: "./",
static_root_path: shared.static_root_path.as_deref(),
description: "List of crates",
keywords: BASIC_KEYWORDS,
resource_suffix: &shared.resource_suffix,
};
let content = format!(
"<h1 class=\"fqn\">\
<span class=\"in-band\">List of all crates</span>\
</h1><ul class=\"crate mod\">{}</ul>",
krates
.iter()
.map(|s| {
format!(
"<li><a class=\"crate mod\" href=\"{}index.html\">{}</a></li>",
ensure_trailing_slash(s),
s
)
})
.collect::<String>()
);
let v = layout::render(&shared.layout, &page, "", content, &shared.style_files);
shared.fs.write(dst, v)?;
}
}
// Update the list of all implementors for traits
let dst = cx.dst.join("implementors");
let cache = cx.cache();
for (&did, imps) in &cache.implementors {
// Private modules can leak through to this phase of rustdoc, which
// could contain implementations for otherwise private types. In some
// rare cases we could find an implementation for an item which wasn't
// indexed, so we just skip this step in that case.
//
// FIXME: this is a vague explanation for why this can't be a `get`, in
// theory it should be...
let (remote_path, remote_item_type) = match cache.exact_paths.get(&did) {
Some(p) => match cache.paths.get(&did).or_else(|| cache.external_paths.get(&did)) {
Some((_, t)) => (p, t),
None => continue,
},
None => match cache.external_paths.get(&did) {
Some((p, t)) => (p, t),
None => continue,
},
};
struct Implementor {
text: String,
synthetic: bool,
types: Vec<String>,
}
impl Serialize for Implementor {
fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error>
where
S: Serializer,
{
let mut seq = serializer.serialize_seq(None)?;
seq.serialize_element(&self.text)?;
if self.synthetic {
seq.serialize_element(&1)?;
seq.serialize_element(&self.types)?;
}
seq.end()
}
}
let implementors = imps
.iter()
.filter_map(|imp| {
// If the trait and implementation are in the same crate, then
// there's no need to emit information about it (there's inlining
// going on). If they're in different crates then the crate defining
// the trait will be interested in our implementation.
//
// If the implementation is from another crate then that crate
// should add it.
if imp.impl_item.item_id.krate() == did.krate || !imp.impl_item.item_id.is_local() {
None
} else {
Some(Implementor {
text: imp.inner_impl().print(false, cx).to_string(),
synthetic: imp.inner_impl().kind.is_auto(),
types: collect_paths_for_type(imp.inner_impl().for_.clone(), cache),
})
}
})
.collect::<Vec<_>>();
// Only create a js file if we have impls to add to it. If the trait is
// documented locally though we always create the file to avoid dead
// links.
if implementors.is_empty() && !cache.paths.contains_key(&did) {
continue;
}
let implementors = format!(
r#""{}":{}"#,
krate.name(cx.tcx()),
serde_json::to_string(&implementors).expect("failed serde conversion"),
);
let mut mydst = dst.clone();
for part in &remote_path[..remote_path.len() - 1] {
mydst.push(part.to_string());
}
cx.shared.ensure_dir(&mydst)?;
mydst.push(&format!("{}.{}.js", remote_item_type, remote_path[remote_path.len() - 1]));
let (mut all_implementors, _) =
try_err!(collect(&mydst, krate.name(cx.tcx()).as_str()), &mydst);
all_implementors.push(implementors);
// Sort the implementors by crate so the file will be generated
// identically even with rustdoc running in parallel.
all_implementors.sort();
let mut v = String::from("(function() {var implementors = {\n");
v.push_str(&all_implementors.join(",\n"));
v.push_str("\n};");
v.push_str(
"if (window.register_implementors) {\
window.register_implementors(implementors);\
} else {\
window.pending_implementors = implementors;\
}",
);
v.push_str("})()");
cx.shared.fs.write(mydst, v)?;
}
Ok(())
}
|