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//! Resolves and rewrites links in markdown documentation for hovers/completion windows.
use std::iter::once;
use itertools::Itertools;
use pulldown_cmark::{CowStr, Event, Options, Parser, Tag};
use pulldown_cmark_to_cmark::cmark;
use url::Url;
use hir::{Adt, AsName, AttrDef, Crate, Hygiene, ItemInNs, ModPath, ModuleDef};
use ra_hir_def::db::DefDatabase;
use ra_ide_db::{defs::Definition, RootDatabase};
use ra_syntax::ast::Path;
use ra_tt::{Ident, Leaf, Literal, TokenTree};
/// Rewrite documentation links in markdown to point to an online host (e.g. docs.rs)
pub fn rewrite_links(db: &RootDatabase, markdown: &str, definition: &Definition) -> String {
let doc = Parser::new_with_broken_link_callback(
markdown,
Options::empty(),
Some(&|label, _| Some((/*url*/ label.to_string(), /*title*/ label.to_string()))),
);
let doc = map_links(doc, |target, title: &str| {
// This check is imperfect, there's some overlap between valid intra-doc links
// and valid URLs so we choose to be too eager to try to resolve what might be
// a URL.
if target.contains("://") {
(target.to_string(), title.to_string())
} else {
// Two posibilities:
// * path-based links: `../../module/struct.MyStruct.html`
// * module-based links (AKA intra-doc links): `super::super::module::MyStruct`
let resolved = try_resolve_intra(db, definition, title, &target).or_else(|| {
try_resolve_path(db, definition, &target).map(|target| (target, title.to_string()))
});
match resolved {
Some((target, title)) => (target, title),
None => (target.to_string(), title.to_string()),
}
}
});
let mut out = String::new();
cmark(doc, &mut out, None).ok();
out
}
// Rewrites a markdown document, resolving links using `callback` and additionally striping prefixes/suffixes on link titles.
fn map_links<'e>(
events: impl Iterator<Item = Event<'e>>,
callback: impl Fn(&str, &str) -> (String, String),
) -> impl Iterator<Item = Event<'e>> {
let mut in_link = false;
let mut link_target: Option<CowStr> = None;
events.map(move |evt| match evt {
Event::Start(Tag::Link(_link_type, ref target, _)) => {
in_link = true;
link_target = Some(target.clone());
evt
}
Event::End(Tag::Link(link_type, _target, _)) => {
in_link = false;
Event::End(Tag::Link(link_type, link_target.take().unwrap(), CowStr::Borrowed("")))
}
Event::Text(s) if in_link => {
let (link_target_s, link_name) = callback(&link_target.take().unwrap(), &s);
link_target = Some(CowStr::Boxed(link_target_s.into()));
Event::Text(CowStr::Boxed(link_name.into()))
}
Event::Code(s) if in_link => {
let (link_target_s, link_name) = callback(&link_target.take().unwrap(), &s);
link_target = Some(CowStr::Boxed(link_target_s.into()));
Event::Code(CowStr::Boxed(link_name.into()))
}
_ => evt,
})
}
#[derive(PartialEq, Eq, Hash, Copy, Clone, Debug)]
enum Namespace {
Types,
Values,
Macros,
}
static TYPES: ([&str; 7], [&str; 0]) =
(["type", "struct", "enum", "mod", "trait", "union", "module"], []);
static VALUES: ([&str; 8], [&str; 1]) =
(["value", "function", "fn", "method", "const", "static", "mod", "module"], ["()"]);
static MACROS: ([&str; 1], [&str; 1]) = (["macro"], ["!"]);
impl Namespace {
/// Extract the specified namespace from an intra-doc-link if one exists.
///
/// # Examples
///
/// * `struct MyStruct` -> `Namespace::Types`
/// * `panic!` -> `Namespace::Macros`
/// * `fn@from_intra_spec` -> `Namespace::Values`
fn from_intra_spec(s: &str) -> Option<Self> {
[
(Namespace::Types, (TYPES.0.iter(), TYPES.1.iter())),
(Namespace::Values, (VALUES.0.iter(), VALUES.1.iter())),
(Namespace::Macros, (MACROS.0.iter(), MACROS.1.iter())),
]
.iter()
.filter(|(_ns, (prefixes, suffixes))| {
prefixes
.clone()
.map(|prefix| {
s.starts_with(*prefix)
&& s.chars()
.nth(prefix.len() + 1)
.map(|c| c == '@' || c == ' ')
.unwrap_or(false)
})
.any(|cond| cond)
|| suffixes
.clone()
.map(|suffix| {
s.starts_with(*suffix)
&& s.chars()
.nth(suffix.len() + 1)
.map(|c| c == '@' || c == ' ')
.unwrap_or(false)
})
.any(|cond| cond)
})
.map(|(ns, (_, _))| *ns)
.next()
}
}
// Strip prefixes, suffixes, and inline code marks from the given string.
fn strip_prefixes_suffixes(mut s: &str) -> &str {
s = s.trim_matches('`');
[
(TYPES.0.iter(), TYPES.1.iter()),
(VALUES.0.iter(), VALUES.1.iter()),
(MACROS.0.iter(), MACROS.1.iter()),
]
.iter()
.for_each(|(prefixes, suffixes)| {
prefixes.clone().for_each(|prefix| s = s.trim_start_matches(*prefix));
suffixes.clone().for_each(|suffix| s = s.trim_end_matches(*suffix));
});
s.trim_start_matches("@").trim()
}
/// Try to resolve path to local documentation via intra-doc-links (i.e. `super::gateway::Shard`).
///
/// See [RFC1946](https://github.com/rust-lang/rfcs/blob/master/text/1946-intra-rustdoc-links.md).
fn try_resolve_intra(
db: &RootDatabase,
definition: &Definition,
link_text: &str,
link_target: &str,
) -> Option<(String, String)> {
eprintln!("resolving intra");
// Set link_target for implied shortlinks
let link_target =
if link_target.is_empty() { link_text.trim_matches('`') } else { link_target };
// Namespace disambiguation
let namespace = Namespace::from_intra_spec(link_target);
// Strip prefixes/suffixes
let link_target = strip_prefixes_suffixes(link_target);
// Parse link as a module path
let path = Path::parse(link_target).ok()?;
let modpath = ModPath::from_src(path, &Hygiene::new_unhygienic()).unwrap();
// Resolve it relative to symbol's location (according to the RFC this should consider small scopes
let resolver = definition.resolver(db)?;
let resolved = resolver.resolve_module_path_in_items(db, &modpath);
let (defid, namespace) = match namespace {
// FIXME: .or(resolved.macros)
None => resolved
.types
.map(|t| (t.0, Namespace::Types))
.or(resolved.values.map(|t| (t.0, Namespace::Values)))?,
Some(ns @ Namespace::Types) => (resolved.types?.0, ns),
Some(ns @ Namespace::Values) => (resolved.values?.0, ns),
// FIXME:
Some(Namespace::Macros) => None?,
};
// Get the filepath of the final symbol
let def: ModuleDef = defid.into();
let module = def.module(db)?;
let krate = module.krate();
let ns = match namespace {
Namespace::Types => ItemInNs::Types(defid),
Namespace::Values => ItemInNs::Values(defid),
// FIXME:
Namespace::Macros => None?,
};
let import_map = db.import_map(krate.into());
let path = import_map.path_of(ns)?;
Some((
get_doc_url(db, &krate)?
.join(&format!("{}/", krate.display_name(db)?))
.ok()?
.join(&path.segments.iter().map(|name| name.to_string()).join("/"))
.ok()?
.join(&get_symbol_filename(db, &Definition::ModuleDef(def))?)
.ok()?
.into_string(),
strip_prefixes_suffixes(link_text).to_string(),
))
}
/// Try to resolve path to local documentation via path-based links (i.e. `../gateway/struct.Shard.html`).
fn try_resolve_path(db: &RootDatabase, definition: &Definition, link: &str) -> Option<String> {
eprintln!("resolving path");
if !link.contains("#") && !link.contains(".html") {
return None;
}
let ns = if let Definition::ModuleDef(moddef) = definition {
ItemInNs::Types(moddef.clone().into())
} else {
return None;
};
let module = definition.module(db)?;
let krate = module.krate();
let import_map = db.import_map(krate.into());
let base = once(format!("{}", krate.display_name(db)?))
.chain(import_map.path_of(ns)?.segments.iter().map(|name| format!("{}", name)))
.join("/");
get_doc_url(db, &krate)
.and_then(|url| url.join(&base).ok())
.and_then(|url| {
get_symbol_filename(db, definition).as_deref().map(|f| url.join(f).ok()).flatten()
})
.and_then(|url| url.join(link).ok())
.map(|url| url.into_string())
}
/// Try to get the root URL of the documentation of a crate.
fn get_doc_url(db: &RootDatabase, krate: &Crate) -> Option<Url> {
// Look for #![doc(html_root_url = "...")]
let attrs = db.attrs(AttrDef::from(krate.root_module(db)?).into());
let doc_attr_q = attrs.by_key("doc");
let doc_url = if doc_attr_q.exists() {
doc_attr_q.tt_values().map(|tt| {
let name = tt.token_trees.iter()
.skip_while(|tt| !matches!(tt, TokenTree::Leaf(Leaf::Ident(Ident{text: ref ident, ..})) if ident == "html_root_url"))
.skip(2)
.next();
match name {
Some(TokenTree::Leaf(Leaf::Literal(Literal{ref text, ..}))) => Some(text),
_ => None
}
}).flat_map(|t| t).next().map(|s| s.to_string())
} else {
// Fallback to docs.rs
// FIXME: Specify an exact version here (from Cargo.lock)
Some(format!("https://docs.rs/{}/*", krate.display_name(db)?))
};
doc_url
.map(|s| s.trim_matches('"').trim_end_matches("/").to_owned() + "/")
.and_then(|s| Url::parse(&s).ok())
}
/// Get the filename and extension generated for a symbol by rustdoc.
///
/// Example: `struct.Shard.html`
fn get_symbol_filename(db: &RootDatabase, definition: &Definition) -> Option<String> {
Some(match definition {
Definition::ModuleDef(def) => match def {
ModuleDef::Adt(adt) => match adt {
Adt::Struct(s) => format!("struct.{}.html", s.name(db)),
Adt::Enum(e) => format!("enum.{}.html", e.name(db)),
Adt::Union(u) => format!("union.{}.html", u.name(db)),
},
ModuleDef::Module(_) => "index.html".to_string(),
ModuleDef::Trait(t) => format!("trait.{}.html", t.name(db)),
ModuleDef::TypeAlias(t) => format!("type.{}.html", t.name(db)),
ModuleDef::BuiltinType(t) => format!("primitive.{}.html", t.as_name()),
ModuleDef::Function(f) => format!("fn.{}.html", f.name(db)),
ModuleDef::EnumVariant(ev) => {
format!("enum.{}.html#variant.{}", ev.parent_enum(db).name(db), ev.name(db))
}
ModuleDef::Const(c) => format!("const.{}.html", c.name(db)?),
ModuleDef::Static(s) => format!("static.{}.html", s.name(db)?),
},
Definition::Macro(m) => format!("macro.{}.html", m.name(db)?),
_ => None?,
})
}
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